Journal publications of the Sydney University Photonics and Optical Physics group by year since 2003.

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2024 Publications

1. Brillouin light storage for 100 pulse widths
   Stiller, B., Jaksch, K., Piotrowski, J., Merklein, M., Schmidt, M., Vu, K., Ma, P., Madden, S., Steel, M., Poulton, C., Eggleton, B. (2024).
   npj Nanophotonics, 5(1), 2948-216X.

2023 Publications

1. Chip-Based Brillouin Processing for Microwave Photonic Phased Array Antennas
   Garrett, M., Merklein, M., Eggleton, B. (2023).
   IEEE Journal of Selected Topics in Quantum Electronics, 29(1).
2. Chip-Based SBS for image rejection in a broadband microwave photonic mixer
   McKay, L., Lai, C., Athansion, N., Choi, D., Madden, S., Eggleton, B., Merklein, M. (2023).
   Optics Express, 31(3), 4268-4280.
3. Gap solitons on an integrated CMOS chip
   Choi, J., Sohn, B., Sahin, E., Chen, G., Xing, P., Ng, D., Eggleton, B., Tan, D. (2023).
   Nanophotonics.
4. Integrated microwave photonic notch filter using a heterogeneously integrated Brillouin and active-silicon photonic circuit
   Garrett, M., Liu, Y., Merklein, M., Bui, C., Lai, C., Choi, D., Madden, S., Casas-Bedoya, A., Eggleton, B. (2023).
   Nature Communications, 7544.
5. Optimization of Bragg soliton dynamics for enhanced supercontinuum generation in ultra- silicon-rich-nitride devices
   Cao, Y., Sohn, B., Choi, J., Sahin, E., Chen, G., Ong, K., Ng, D., Eggleton, B., Tan, D. (2023).
   Optical Materials Express, 13(2), 377-392.
6. Optimizing performance for an on-chip stimulated Brillouin scattering- based isolator
   Lai, C., Merklein, M., Casas Bedoya, A., Liu, Y., Madden, S., Poulton, C., Steel, M., Eggleton, B. (2023).
   Journal of the Optical Society of America B: Optical Physics, 40(3), 523-534.
7. Roadmap on chalcogenide photonics
   Gholipour, B., Elliott, S., Miller, M., Wuttig, M., Hewak, D., Hayden, B., Li, Y., Jo, S., Jaramillo, R., Simpson, R., Eggleton, B., et al (2023).
   Journal of Physics: Photonics, 5(1).
8. Photonic radar for contactless vital sign detection
   Zhang, Z., Liu, Y., Stephens, T., Eggleton, B., et al (2023).
   Nature Photonics. 17, 791–797.

2022 Publications

1. 100 years of Brillouin scattering: Historical and future perspectives
   Merklein, M., Kabakova, I., Zarifi, A., Eggleton, B. (2022).
   Applied Physics Reviews, 9(4).
2. 11-GHz-Bandwidth Photonic Radar using MHz Electronic
   Liu, Y., Zhang, Z., Burla, M., Eggleton, B. (2022).
   Laser and Photonics Reviews, 16(4), 2100549.
3. An optical parametric Bragg amplifier on a CMOS-chip
   Choi, J., Sohn, B., Sahin, E., Chen, G., Xing, P., Ng, D., Eggleton, B., Tan, D. (2022).
   2022 Conference on Lasers and Electro-Optics, CLEO 2022, San Jose: Institute of Electrical and Electronics Engineers (IEEE).
4. Announcing the 2022 Early Career Editorial Advisory Board appointees
   Eggleton, B., Stein, J. (2022).
   APL Photonics, 7(2), 20401.
5. Bragg-Soliton Enhanced Supercontinuum in an Ultra-Silicon-Rich-Nitride Grating
   Cao, Y., Sohn, B., Choi, J., Sahin, E., Chen, G., Ong, K., Ng, D., Eggleton, B., Tan, D. (2022).
   7th OptoElectronics and Communications Conference/International Conference on Photonics in Switching and Computing, OECC/PSC 2022, Toyama: Institute of Electrical and Electronics Engineers (IEEE).
6. Heterogeneous integration of Brillouin devices with active silicon photonic circuits
   Garrett, M., Merklein, M., Liu, Y., Bui, C., Lai, C., Casas Bedoya, A., Eggleton, B., Choi, D., Madden, S. (2022).
   2022 IEEE Photonics Conference, United States of America: Institute of Electrical and Electronics Engineers Inc.
7. Hybrid Chalcogenide-Germanosilicate Waveguides for High Performance Stimulated Brillouin Scattering Applications
   Lai, C., Choi, D., Athanasios, N., Yan, K., Chong, W., Debbarma, S., Ahmad, H., Eggleton, B., Merklein, M., Madden, S. (2022).
   Advanced Functional Materials, 32(3), 2105230.
8. Multi-Band and Frequency-Agile Chip-based RF Photonic Filter for Ultra-deep Interference Rejection
   Garrett, M., Liu, Y., Merklein, M., Choi, D., Yan, K., Madden, S., Eggleton, B. (2022).
   Journal of Lightwave Technology, 40(6), 1672-1680.
9. On-Chip Quasi-Light Storage for Long Optical Delays
   Goulden, L., Kiewiet, M., Liu, Y., Lai, C., Choi, D., Madden, S., Eggleton, B., Merklein, M. (2022).
   2022 IEEE Photonics Conference, United States of America: Institute of Electrical and Electronics Engineers Inc.
10. On-chip stimulated Brillouin scattering
    Pant, R., Madden, S., Eggleton, B., Shin, H. (2022).
    In Benjamin J. Eggleton, Michael J. Steel, Christopher G. Poulton (Eds.), Brillouin Scattering Part 1 Volume 109, (pp. 159-191). Cambridge: Academic Press.
11. Photonic Generation of 30 GHz Bandwidth Stepped-Frequency Signals for Radar Applications
    Zhang, Z., Liu, Y., Eggleton, B. (2022).
    Journal of Lightwave Technology, 40(14), 4521- 4527.
12. Picosecond pulse generation from continuous-wave light in an integrated nonlinear Bragg grating
    Choi, J., Sohn, B., Sahin, E., Chen, G., Ng, D., Eggleton, B., de Sterke, C., Tan, D. (2022).
    Nanophotonics, 11(10), 2319-2328.
13. Pilot-Tone-Assisted Stimulated-Brillouin-Scattering- Based Optical Carrier Recovery for Kramers-Kronig Reception
    Li, C., Sun, Y., Merklein, M., Eggleton, B., Corcoran, B. (2022).
    Journal of Lightwave Technology, 40(14), 4642-4648.

2021 Publications

1. Research priorities for COVID-19 sensor technology
   A. Tong, T. C. Sorrell, A. J Black, C. Caillaud, W. Chrzanowski, E. Li, D. Martinez-Martin, A. McEwan, R. Wang, A. Motion, A. Casas Bedoya, J. Huang, L. Azizi, B. J. Eggleton
   Nature Biotechnology, 1 – 4 (2021).
2. Wide-range optical carrier recovery via broadened Brillouin filters
   A. Zarifi, M. Merklein, Y. Liu, A. Choudhary, B. J. Eggleton, B. Corcoran
   Optics Letters 46 (2), 166 – 169 (2021).
3. Versatile silicon microwave photonic spectral shaper
   X. Guo, Y. Liu, Tangman Yin, B. Morrison, M. Pagani, O. Daulay, W. Bogaerts, B. J. Eggleton, A. Casas-Bedoya, D. Marpaung
   APL Photonics 6 (3), 036106.
4. Thermo-optically tunable spectral broadening in a nonlinear ultra-silicon-rich nitride Bragg grating
   Y. Cao, E. Sahin, J. W. Choi, P. Xing, G. FR Chen, D. K. T. Ng, B. J. Eggleton, D. TH Tan
   Photonics Research 9 (4), 596- 604.
5. Ultrashallow Junction Electrodes in Low-Loss Silicon Microring Resonators
   B. Xu, G. G de Boo, B. C. Johnson, M. Rančić, A. Casas-Bedoya, B. Morrison, J. C. McCallum, B. J. Eggleton, M. J. Sellars, C. Yin, S. Rogge
   Physical Review Applied 15 (4), 044014.
6. Circulator‐Free Brillouin Photonic Planar Circuit
   Y. Liu, A. Choudhary, G. Ren, D. Y. Choi, A. Casas‐Bedoya, B. Morrison, P. Ma, T. G. Nguyen, A. Mitchell, S. J. Madden, D. Marpaung, B J. Eggleton
   Laser & Photonics Reviews 15 (5), 2000481.
7. On-chip broadband nonreciprocal light storage
   M. Merklein, B. Stiller, K. Vu, P. Ma, S. J. Madden, B. J. Eggleton
   Frontiers in Optics and Photonics (Book published by De Gruyter), 75-82.
8. Effective linewidth reduction in self-homodyne coherent reception by stimulated Brillouin scattering-based optical carrier recovery
   C. Li, M. Merklein, Y. Liu, A. Choudhary, B. J. Eggleton, B. Corcoran
   Optics Express 29 (16), 25697-25708.
9. An optical parametric Bragg amplifier on a CMOS chip
   J. W. Choi, B. U. Sohn, E. Sahin, G. FR Chen, P. Xing, D. KT Ng, B. J. Eggleton, D. TH Tan
   Nanophotonics 2021, https://doi.org/10.1515/nanoph-2021-0302
10. Hybrid Chalcogenide‐Germanosilicate Waveguides for High Performance Stimulated Brillouin Scattering Applications
    C. K. Lai, D. Y. Choi, N. J. Athanasios, K. Yan, W. Y. Chong, S. Debbarma, H. Ahmad, B. J. Eggleton, M. Merklein, S. J. Madden
    Advanced Functional Materials 2021, 2105230.
11. Chip-based broadband microwave photonic mixer with image rejection
    McKay, L., Lai, C., Athanasios, N., Choi, D., Madden, S., Eggleton, B., Merklein, M.
    2021 International Topical Meeting on Microwave Photonics (MWP 2021), Pisa: Institute of Electrical and Electronics Engineers (IEEE).
12. Chip-based RF Photonic Notch Filter for Deep Rejection of Multi-Band Interfering Signals.
    Garrett, M., Liu, Y., Merklein, M., Choi, D., Yan, K., Madden, S., Eggleton, B.
    2021 International Topical Meeting on Microwave Photonics (MWP 2021), Pisa: Institute of Electrical and Electronics Engineers (IEEE).
13. Integrated Microwave Photonic Filters.
    Liu, Y., Choudhary, A., Marpaung, D., Eggleton, B.
    2021 Optical Fiber Communications Conference and Exhibition (OFC 2021), San Francisco: Institute of Electrical and Electronics Engineers (IEEE).
14. Nanotechnology for a Sustainable Future: Addressing Global Challenges with the International Network4Sustainable Nanotechnology
    Pokrajac, L., Abbas, A., Chrzanowski, W., Dias, G., Eggleton, B., Maguire, S., Maine, E., Malloy, T., Nathwani, J., Nazar, L. et al
    ACS Nano, 15(12), 18608-18623.

2020 Publications

1. On-chip broadband nonreciprocal light storage
   M. Merklein, B. Stiller, K. Vu, P. Ma, S. J. Madden, B. J. Eggleton
   Nanophotonics 1 (2020).
2. Universal Silicon Microwave Photonic Spectral Shaper
   X. Guo, Y. Liu, T. Yin, B. Morrison, M. Pagani, O. Daulay, W. Bogaerts, B. J. Eggleton, A. C. Bedoya, D. Marpaung
   arXiv preprint arXiv:2012.14696
3. Ultra-shallow junction electrodes in low-loss silicon micro-ring resonators
   B-B Xu, G. G. Boo, B. C. Johnson, M. Rančić, A. C. Bedoya, B. Morrison, J. C.  McCallum, B. J. Eggleton, M. J. Sellars, C.Yin, S. Rogge
   arXiv preprint arXiv:2011.14792
4. Integrated microwave photonic true-time delay with interferometric delay enhancement based on Brillouin scattering and microring resonators
   L McKay, M Merklen, Y Liu, A Cramer, J Maksymow, A Chilton, K Yan, DY Choi, S J Madden, R DeSalvo, B J Eggleton
   Optics Express 28 (24), 36020-36032.
5. Multidimensional synthetic chiral-tube lattices via nonlinear frequency conversion
   K Wang, B Bell, AS Solntsev, DN Neshev, BJ Eggleton, AA Sukhorukov
   arXiv preprint arXiv:2002.08591
6. Synthetic photonic lattice for single-shot reconstruction of frequency combs
   JG Titchener, B Bell, K Wang, AS Solntsev, BJ Eggleton, AA Sukhorukov
   APL Photonics 5 (3), 030805]
7. Broadband Brillouin phase shifter utilizing RF interference: Experimental demonstration and theoretical analysis
   L McKay, M Merklein, A Choudhary, Y Liu, M Jenkins, C Middleton, A Cramer, A Chilton, J Devenport, K Vu, DY Choi, P Ma, S Madden, R DeSalvo, BJ Eggleton
   Journal of Lightwave Technology, doi: 10.1109/JLT.2020.2980308.
8. Si3N4-chip-based versatile photonic RF waveform generator with a wide tuning range of repetition rate
   Z Zhu, Y Liu, M Merklein, Z Zhang, D Marpaung, BJ Eggleton
   Optics Letters 45 (6), 1370-1373
9. Coherently refreshing hypersonic phonons for light storage
   B Stiller, M Merklein, C Wolff, K Vu, P Ma, SJ Madden, BJ Eggleton
   Optica 7 (5), 492-497
10. Integrated microwave photonic filters
    Y Liu, A Choudhary, D Marpaung, BJ Eggleton
    Advances in Optics and Photonics 12 (2), 485-555
11. Low-RF-loss and large-rejection reconfigurable Brillouin-based RF photonic bandpass filter
    Y Liu, A Choudhary, D Marpaung, BJ Eggleton
12. On-chip broadband nonreciprocal light storage
    M Merklein, B Stiller, K Vu, P Ma, SJ Madden, BJ Eggleton
    Nanophotonics 1(ahead-of-print) (2020)
13. High-conversion-gain and deep-image-rejection Brillouin chip-based photonic RF mixer
    Z Zhu, DY Choi, SJ Madden, BJ Eggleton, M Merklein
    Optics Letters 45 (19), 5571- 5574 (2020)

2019 Publications

1. Positive link gain microwave photonic bandpass filter using Si3N4-ring-enabled sideband filtering and carrier suppression
   Z Zhu, Y Liu, M Merklein, O Daulay, D Marpaung, BJ Eggleton,
   Optics express 27, 31727-31740
2. Integration of Brillouin and passive circuits for enhanced radio-frequency photonic filtering
   Y Liu, A Choudhary, G Ren, K Vu, B Morrison, A Casas-Bedoya, T G Nguyen, DY Choi, P Ma, A Mitchell, S J Madden, D Marpaung, BJ Eggleton
   APL Photonics 4, No. 10 (2019): 106103
3. Topologically protected entangled photonic states
   Doyle, Cooper; Bell, Bryn; Collins, Matthew J.; Magi, Eric
   Nanophotonics. , 2019, Vol.8(8), p.1327-1335
4. Brillouin integrated photonics
   BJ Eggleton, CG Poulton, PT Rakich, MJ Steel, G Bahl
   Nature Photonics, 1-14
5. Bragg Soliton Fission: Bragg Soliton Compression and Fission on CMOS‐Compatible Ultra‐Silicon‐Rich Nitride (Laser Photonics Rev. 13 (8)/2019)
   E Sahin, A Blanco‐Redondo, P Xing, DKT Ng, CE Png, DTH Tan, …
   Laser & Photonics Reviews 13 (8), 197003
6. System-level Performance of Chip-based Brillouin Microwave Photonic Bandpass Filter
   Y Xie, A Choudhary, Y Liu, D Marpaung, K Vu, P Ma, DY Choi, S Madden, …
   Journal of Lightwave Technology.
7. Roadmap on all-optical processing
   P Minzioni, C Lacava, T Tanabe, J Dong, X Hu, G Csaba, W Porod
   Journal of Optics 21 (6), 063001
8. Coherently refreshed acoustic phonons for extended light storage
   B Stiller, M Merklein, C Wolff, K Vu, P Ma, SJ Madden, BJ Eggleton
   arXiv preprint arXiv:1904.13167
9. Highly sensitive, broadband microwave frequency identification using a chip-based Brillouin optoelectronic oscillator
   Z Zhu, M Merklein, DY Choi, K Vu, P Ma, SJ Madden, BJ Eggleton
   Optics express 27 (9), 12855-12868
10. Bragg soliton compression and fission on a CMOS-compatible platform
    E Sahin, A Blanco-Redondo, P Xing, DKT Ng, CE Png, DTH Tan, …
    arXiv preprint arXiv:1904.07753
11. Cross talk-free coherent multi-wavelength Brillouin interaction
    B Stiller, M Merklein, K Vu, P Ma, SJ Madden, CG Poulton, BJ Eggleton

    APL Photonics 4 (4), 040802
12. Introduction to the APL Photonics editorial series on the future of photonics
    BJ Eggleton

    APL Photonics 4 (4), 040401
13. Brillouin-based phase shifter in a silicon waveguide
    L Mckay, M Merklein, AC Bedoya, A Choudhary, M Jenkins, C Middleton, …
    Optica 6 (7), 907-913
14. Nonlinear optics in 2D materials
    BJ Eggleton
    APL Photonics 4 (3)
15. Suspended mid-infrared waveguides for Stimulated Brillouin Scattering
    MK Schmidt, CG Poulton, GZ Mashanovich, GT Reed, BJ Eggleton, …
    Optics express 27 (4), 4976-4989
16. Intermodal and multimode fiber photonics
    BJ Eggleton
    APL Photonics 4 (2)
17. On-chip correlation-based Brillouin sensing: design, experiment, and simulation
    A Zarifi, B Stiller, M Merklein, Y Liu, B Morrison, A Casas-Bedoya, G Ren, …
    JOSA B 36 (1), 146-152

2018 Publications

1. Eggleton, Benjamin J.; Brigham, Erinn C.
   “Editorial: Early Career Editorial Advisory Board and APL Photonics Future Luminary Award”
   APL Photonics 3, 010401 (2018)
2. High link performance of Brillouin-loss based microwave bandpass photonic filters
   A Mahendra, Y Liu, E Magi, A Choudhary, D Marpaung, BJ Eggleton
   OSA Continuum 1 (4), 1287-1297
3. Reconfigurable on-chip mode exchange for mode-division multiplexing optical networks
   X Han, H Xiao, Z Liu, T Zhao, H Jia, J Yang, BJ Eggleton, Y Tian
   Journal of Lightwave Technology 37 (3), 1008-1013
4. High resolution Brillouin sensing of micro-scale structures
   A Zarifi, B Stiller, M Merklein, B Eggleton
   Applied Sciences 8 (12), 2572
5. Announcing the 2019 Early Career Editorial Advisory Board Appointees
   BJ Eggleton, EC Brigham
   APL Photonics 3 (12), 120401
6. Topological protection of biphoton states
   A Blanco-Redondo, B Bell, D Oren, BJ Eggleton, M Segev
   Science 362 (6414), 568-571
7. Chip-based Brillouin processing for carrier recovery in self-coherent optical communications
   E Giacoumidis, A Choudhary, E Magi, D Marpaung, K Vu, P Ma, DY Choi, …
   Optica 5 (10), 1191-1199
8. Link Performance Optimization of Chip-Based Si₃N₄ Microwave Photonic Filters
   Y Liu, D Marpaung, A Choudhary, J Hotten, BJ Eggleton
   Journal of lightwave technology 36 (19), 4361-4370
9. On-chip multi-stage optical delay based on cascaded Brillouin light storage
   B Stiller, M Merklein, C Wolff, K Vu, P Ma, CG Poulton, SJ Madden, …
   Optics letters 43 (18), 4321-4324
10. Brillouin spectroscopy of a hybrid silicon-chalcogenide waveguide with geometrical variations
    A Zarifi, B Stiller, M Merklein, Y Liu, B Morrison, A Casas-Bedoya, G Ren, …
    Optics letters 43 (15), 3493-3496
11. Integrated silicon nitride time-bin entanglement circuits
    X Zhang, BA Bell, A Mahendra, C Xiong, PHW Leong, BJ Eggleton
    Optics letters 43 (15), 3469-3472
12. High-Performance Chip-Assisted Microwave Photonic Functionalities
    Y Liu, D Marpaung, BJ Eggleton, A Choudhary
    IEEE photonics technology letters 30 (21), 1822-1825
13. Multiphoton Interference in the Spectral Domain by Direct Heralding of Frequency Superposition States
    BA Bell, BJ Eggleton
    Physical review letters 121 (3), 033601
14. Brillouin-based light storage and delay techniques
    M Merklein, B Stiller, BJ Eggleton
    Journal of Optics 20 (8), 083003
15. Introduction to the special issue on ultralow loss planar waveguides and their applications
    DJ Blumenthal, C Ciminelli, M Dagenais, B Eggleton, DV Thourhout
    IEEE Journal of Selected Topics in Quantum Electronics 24 (4), 1-3
16. Broad-bandwidth non-reciprocal Brillouin light storage
    M Merklein, B Stiller, K Vu, P Ma, SJ Madden, BJ Eggleton
    arXiv preprint arXiv:1806.00146
17. On-chip Brillouin filtering of RF and Optical Signals
    A Choudhary, Y Liu, D Marpaung, BJ Eggleton
    IEEE journal of selected topics in quantum electronics 24 (6), 1-11
18. Chip-based Brillouin processing for phase control of RF signals
    Y Liu, A Choudhary, D Marpaung, BJ Eggleton
    IEEE journal of quantum electronics 54 (3), 1-13
19. Constraints on downconversion in atomically thick films
    L Marini, LG Helt, Y Lu, BJ Eggleton, S Palomba
    JOSA B 35 (4), 672-679
20. Crosstalk-free multi-wavelength coherent light storage via Brillouin interaction
    B Stiller, M Merklein, K Vu, P Ma, SJ Madden, CG Poulton, BJ Eggleton
    arXiv preprint arXiv:1803.08626
21. Highly localized distributed Brillouin scattering response in a photonic integrated circuit
    A Zarifi, B Stiller, M Merklein, N Li, K Vu, DY Choi, P Ma, SJ Madden, …
    APL Photonics 3 (3), 036101
22. Multi-photon interference in the spectral domain by direct heralding of superposition states
    BA Bell, BJ Eggleton
    arXiv preprint arXiv:1801.07521
23. A chip-integrated coherent photonic-phononic memory (vol 8, 2017)
    M Merklein, B Stiller, K Vu, SJ Madden, BJ Eggleton
    NATURE COMMUNICATIONS 9
24. Author Correction: A chip-integrated coherent photonic-phononic memory
    M Merklein, B Stiller, K Vu, SJ Madden, BJ Eggleton
    Nature communications 9 (1), 109
25. Early Career Editorial Advisory Board and APL Photonics Future Luminary Award
    BJ Eggleton, EC Brigham
    APL Photonics 3 (1), 010401

2017 Publications

1. On-chip Brillouin purification for frequency comb-based coherent optical communications
   Amol Choudhary, Mark Pelusi, David Marpaung, Takashi Inoue, Khu Vu, Pan Ma, Duk-Yong Choi, Stephen Madden, Shu Namiki, and Benjamin J. Eggleton,
   Optics Letters 42, (24), 5074-5077 (2017)
2. Hybrid photonic-crystal fiber
   Christos Markos, John C. Travers, Amir Abdolvand, Benjamin J. Eggleton, and Ole Bang,
   Rev. Mod. Phys. 89, 045003 (2017)
3. Deterministic filtering of breakdown flashing at telecom wavelengths
   Loris Marini, Robin Camphausen, Benjamin J. Eggleton, and Stefano Palomba,
   Appl. Phys. Lett. 111, 213501 (2017)
4. Spectral photonic lattices with complex long-range coupling,
   Bryn A. Bell, Kai Wang, Alexander S. Solntsev, Dragomir N. Neshev, Andrey A. Sukhorukov, and Benjamin J. Eggleton,
   Optica 4, 1433-1436 (2017)
5. All-optimized integrated RF photonic notch filter
   Yang Liu, Jason Hotten, Amol Choudhary, Benjamin J. Eggleton, and David Marpaung,
   Opt. Lett. 42, 4631-4634 (2017)
6. High repetition rate correlated photon pair generation in integrated silicon nanowires,
   Xiang Zhang, Bryn Bell, Mark Pelusi, Jiakun He, Wei Geng, Yunchuan Kong, Philipp Zhang, Chunle Xiong, and Benjamin J. Eggleton,
   Appl. Opt. 56, 8420-8424 (2017)
7. A chip-integrated coherent photonic-phononic memory
   Moritz Merklein, Birgit Stiller, Khu Vu, Stephen J. Madden & Benjamin J. Eggleton,
   Nature Communications 8: 574, doi:10.1038/s41467-017-00717-y (2017)
8. Compact Brillouin devices through hybrid integration on silicon
   Blair Morrison, Alvaro Casas-Bedoya, Guanghui Ren, Khu Vu, Yang Liu, Atiyeh Zarifi, Thach G. Nguyen, Duk-Yong Choi, David Marpaung, Stephen J. Madden, Arnan Mitchell, and Benjamin J. Eggleton,
   Optica 4, 847-854 (2017)
9. High-resolution, on-chip RF photonic signal processor using Brillouin gain shaping and RF interference
   Amol Choudhary, Yang Liu, Blair Morrison, Khu Vu, Duk-Yong Choi, Pan Ma, Stephen Madden, David Marpaung & Benjamin J. Eggleton,
   Scientific Reports 7, Article number: 5932 (2017) doi:10.1038/s41598-017-06270-4
10. Low noise frequency comb carriers for 64-QAM via a Brillouin comb amplifier,
    Mark Pelusi, Amol Choudhary, Takashi Inoue, David Marpaung, Benjamin J. Eggleton, Karen Solis-Trapala, Hung Nguyen Tan, and Shu Namiki,
    Opt. Express 25, 17847-17863 (2017)
11. Uni-directional wavelength conversion in silicon using four-wave mixing driven by cross-polarized pumps
    Bryn A. Bell, Chunle Xiong, David Marpaung, Colin J. McKinstrie, and Benjamin J. Eggleton,
    Opt. Lett. 42, 1668-1671 (2017)
12. Stimulated Brillouin scattering in integrated ring resonators
    Sayyed Reza Mirnaziry, Christian Wolff, M. J. Steel, Benjamin J. Eggleton, and Christopher G. Poulton,
    J. Opt. Soc. Am. B 34, 937-949 (2017)
13. Chip-based Brillouin radio frequency photonic phase shifter and wideband time delay,
    Iman Aryanfar, David Marpaung, Amol Choudhary, Yang Liu, Khu Vu, Duk-Yong Choi, Pan Ma, Stephen Madden, and Benjamin J. Eggleton,
    Opt. Lett. 42, 1313-1316 (2017)
14. Gigahertz optical tuning of an on-chip radio frequency photonic delay line
    Yang Liu, Amol Choudhary, David Marpaung, and Benjamin J. Eggleton,
    Optica 4, 418-423 (2017)
15. Cascaded forward Brillouin scattering to all Stokes orders
    C Wolff, B Stiller, B J Eggleton, M J Steel and C G Poulton,
    2017 New J. Phys. 19 023021
16. Analysis of the modification of four-wave mixing phase matching by
    stimulated Brillouin scattering
    El-Abed Haidar, C. Martijn de Sterke, and Benjamin J. Eggleton,
    J. Opt. Soc. Am. B 34, 516-526 (2017)
17. Multiwavelength stabilization control of a thermo-optic system with adaptive reconfiguration
    Andri Mahendra, Chunle Xiong, Xiang Zhang, Benjamin J. Eggleton, and Philip H. W. Leong,
    Appl. Opt. 56. 1113-1118 (2017)

2016 Publications

1. Comparison of principal modes and spatial eigenmodes in multimode optical fibre
   Joel Carpenter, Benjamin Eggleton, Jochen Schröder,
   Laser & Photonics Reviews, 1600259 (2016)
   DOI 10.1002/lpor.201600259
2. Advanced integrated microwave signal processing with giant on-chip Brillouin gain
   A. Choudhary; B. Morrison; I. Aryanfar; S. Shahnia; M. Pagani; Y. Liu; K. Vu; S. Madden; D. Marpaung; B. J. Eggleton,
   in Journal of Lightwave Technology, vol.PP, no.99, pp.1-1
   doi: 10.1109/JLT.2016.2613558
3. Mid-IR absorption sensing of heavy water using a silicon-on-sapphire waveguide
   Neetesh Singh, Alvaro Casas-Bedoya, Darren D. Hudson, Andrew Read, Eric Mägi, and Benjamin J. Eggleton,
   Opt. Lett. 41, 5776-5779 (2016)
4. Complete spatiotemporal characterization and optical transfer matrix inversion of a 420 mode fiber
   Joel Carpenter, Benjamin J. Eggleton, and Jochen Schröder,
   Opt. Lett. 41, 5580-5583 (2016)
5. Polarization-resolved cross-correlated (C2) imaging of a photonic bandgap fiber,
   Joel Carpenter, Benjamin J. Eggleton, and Jochen Schröder,
   Opt. Express 24, 27785-27790 (2016)
6. Roadmap of optical communications
   Erik Agrell et al,
   2016 J. Opt. 18 063002
7. Lossless and high-resolution RF photonic notch filter
   Yang Liu, David Marpaung, Amol Choudhary, and Benjamin J. Eggleton,
   Opt. Lett. 41, 5306-5309 (2016)
8. Comparison of DSP-based nonlinear equalizers for intra-channel nonlinearity compensation in coherent optical OFDM
   Elias Giacoumidis, Sofien Mhatli, Tu Nguyen, Son T. Le, Ivan Aldaya, Mary E. McCarthy, Andrew D. Ellis, and Benjamin J. Eggleton,
   Opt. Lett. 41, 2509-2512 (2016)
9. Phase-sensitive tomography of the joint spectral amplitude of photon pair sources
   Iman Jizan, Bryn Bell, L. G. Helt, Alvaro Casas Bedoya, Chunle Xiong, and Benjamin J. Eggleton,
   Opt. Lett. 41, 4803-4806 (2016)
10. Widely tunable, low phase noise microwave source based on a photonic chip
    Moritz Merklein, Birgit Stiller, Irina V. Kabakova, Udara S. Mutugala, Khu Vu, Stephen J. Madden, Benjamin J. Eggleton, and Radan Slav’k,
    Opt. Lett. 41, 4633-4636 (2016), doi.org/10.1364/OL.41.004633
11. Frequency conversion in silicon in the single photon regime
    Bryn A. Bell, Jiakun He, Chunle Xiong, and Benjamin J. Eggleton,
    Opt. Express 24, 5235-5242 (2016), doi: 10.1364/OE.24.005235
12. Correlated photon pair generation in low-loss double-stripe silicon nitride waveguides
    Xiang Zhang, Yanbing Zhang, Chunle Xiong and Benjamin J Eggleton,
    Journal of Optics, Volume 18, Number 7, J. Opt. 18 074016
13. CMOS-compatible photonic devices for single-photon generation
    Chunle Xiong, Bryn Bell, Benjamin J. Eggleton,
    Nanophotonics 2016 DOI: 10.1515/nanoph-2016-0022
14. Signal interference RF photonic bandstop filter
    Iman Aryanfar, Amol Choudhary, Shayan Shahnia, Mattia Pagani, Yang Liu, David Marpaung, and Benjamin J. Eggleton,
    Opt. Express 24, 14995-15004 (2016), doi: 10.1364/OE.24.014995
15. Four-wave mixing and nonlinear losses in thick silicon waveguides
    Blair Morrison, Yanbing Zhang, Mattia Pagani, Benjamin Eggleton, and David Marpaung,
    Opt. Lett. 41, 2418-2421 (2016), doi: 10.1364/OL.41.002418
16. Instantaneous microwave frequency measurement using four-wave mixing in a chalcogenide chip
    Mattia Pagania, Khu Vu, Duk-Yong Choi, Steve J. Madden, Benjamin J. Eggleton, David Marpaung,
    Optics Communications, Volume 373, Pages 100-104 (2016)
17. Temporal characterization of a multi-wavelength Brillouin–erbium fiber laser
    Victor Lambin Iezzi, Thomas F S Büttner, Amirhossein Tehranchi, Sébastien Loranger, Irina V Kabakova, Benjamin J Eggleton and Raman Kashyap,
    2016 New J. Phys. 18 055003 (2016)
18. Phase-locking in cascaded stimulated Brillouin scattering
    Thomas F S Büttner, Christopher G Poulton, M J Steel, Darren D Hudson and Benjamin J Eggleton,
    2016 New J. Phys. 18 025003 (2016)
19. Brillouin resonance broadening due to structural variations in nanoscale waveguides
    C Wolff, R Van Laer, M J Steel, B J Eggleton and C G Poulton,
    2016 New J. Phys. 18 025006 (2016)
20. Topological Optical Waveguiding in Silicon and the Transition between Topological and Trivial Defect States
    Andrea Blanco-Redondo, Imanol Andonegui, Matthew J. Collins, Gal Harari, Yaakov Lumer, Mikael C. Rechtsman, Benjamin J. Eggleton, and Mordechai Segev,
    Phys. Rev. Lett. 116, 163901, doi: http://dx.doi.org/10.1103/PhysRevLett.116.163901 (2016)
21. Free-carrier-induced soliton fission unveiled by in situ measurements in nanophotonic waveguides
    Chad Husko, Matthias Wulf, Simon Lefrancois, Sylvain Combrié, Gaëlle Lehoucq, Alfredo De Rossi, Benjamin J. Eggleton & L. Kuipers,
    Nature Communications 7: 11332, doi:10.1038/ncomms11332 (2016)
22. Active temporal multiplexing of indistinguishable heralded single photons
    C. Xiong, X. Zhang, Z. Liu, M. J. Collins, A. Mahendra, L. G. Helt, M. J. Steel, D. -Y. Choi, C. J. Chae, P. H. W. Leong & B. J. Eggleton,
    Nature Communications 7:10853, doi:10.1038/ncomms10853 (2016)
23. Stimulated Brillouin scattering in silicon/chalcogenide slot waveguides
    Sayyed Reza Mirnaziry, Christian Wolff, M. J. Steel, Benjamin J. Eggleton, and Christopher G. Poulton,
    Opt. Express 24, 4786-4800 (2016), doi: 10.1364/OE.24.004786.
24. Tunable generation of entangled photons in a nonlinear directional coupler
    F. Setzpfandt, A. S. Solntsev, J. Titchener, C. W. Wu, C. Xiong, R. Schiek, T. Pertsch, D. N.
    Neshev, and A. A. Sukhorukov,
    Laser & Photon. Rev., 10: 131–136. doi: 10.1002/lpor.201500216 (2016).
25. Stimulated Brillouin scattering in photonic integrated circuits: novel applications and devices,
    Merklein, M.; Casas-Bedoya, A.; Marpaung, D.; Buttner, T.F.S.; Pagani, M.; Morrison, B.; Kabakova, I.V.; Eggleton, B.J.,
    in Selected Topics in Quantum Electronics, IEEE Journal of , vol.PP, no.99, pp.1-1, doi: 10.1109/JSTQE.2016.2523521, keywords: {Optomechanics; Stimulated Brillouin scattering; nonlinear optics}
26. Pure-quartic solitons
    Andrea Blanco-Redondo, de Sterke C. Martijn, J.E. Sipe, Thomas F. Krauss, Benjamin J. Eggleton & Chad Husko,
    Nat. Commun. 7:10427, doi: 10.1038/ncomms10427 (2016)
27. Cross-phase modulation-induced spectral broadening in silicon waveguides
    Yanbing Zhang, Chad Husko, Simon Lefrancois, Isabella H. Rey, Thomas F. Krauss, Jochen Schröder, and Benjamin J. Eggleton,
    Opt. Express 24, 443-451 (2016), doi: 10.1364/OE.24.000443
28. Tailoring of the Brillouin gain for on-chip widely tunable and reconfigurable broadband microwave photonic filters
    Amol Choudhary, Iman Aryanfar, Shayan Shahnia, Blair Morrison, Khu Vu, Stephen Madden, Barry Luther-Davies, David Marpaung, and Benjamin J. Eggleton,
    Opt. Lett. 41, 436-439 (2016)
29. Wide-range, high-precision multiple microwave frequency measurement using a chip-based photonic Brillouin filter
    Hengyun Jiang, David Marpaung, Mattia Pagani, Khu Vu, Duk-Yong Choi, Steve J. Madden, Lianshan Yan, and Benjamin J. Eggleton,
    Optica 3, 30-34 (2016)

2015 Publications

1. Fiber nonlinearity-induced penalty reduction in CO-OFDM by ANN-based nonlinear equalization
   Elias Giacoumidis, Son T. Le, Mohammad Ghanbarisabagh, Mary McCarthy, Ivan Aldaya, Sofien Mhatli, Mutsam A. Jarajreh, Paul A. Haigh, Nick J. Doran, Andrew D. Ellis, and Benjamin J. Eggleton,
   Opt. Lett. 40, 5113-5116 (2015), doi: 10.1364/OL.40.005113
2. Microwave photonic comb filter with ultra-fast tunability
   H. Y. Jiang, L. S. Yan, Y. Pan, W. Pan, B. Luo, X. H. Zou, and B. J. Eggleton,
   Opt. Lett. 40, 4895-4898 (2015), doi: 10.1364/OL.40.004895
3. Observation of Eisenbud–Wigner–Smith states as principal modes in multimode fibre
   Joel Carpenter, Benjamin J. Eggleton, Jochen Schröder,
   Nature Photonics, doi:10.1038/nphoton.2015.188 (2015)
4. Random number generation from spontaneous Raman scattering 
   M. J. Collins, A. S. Clark, C. Xiong, E. Mägi, M. J. Steel and B. J. Eggleton,
   Appl. Phys. Lett. 107, 141112 (2015)
5. Acoustic build-up in on-chip stimulated Brillouin scattering
   Wolff, C., Steel, M. J., Eggleton, B. J., & Poulton, C. G.,
   Scientific Reports, 5, 13656; doi: 10.1038/srep13656 (2015)
6. Power limits and a figure of merit for stimulated Brillouin scattering in the presence of third and fifth order loss
   C. Wolff, P. Gutsche, M. J. Steel, B. J. Eggleton, and C. G. Poulton,
   Opt. Express 23, 26628-26638 (2015)
7. Midinfrared supercontinuum generation from 2 to 6 a um silicon nanowire
   Neetesh Singh, Darren D. Hudson, Yi Yu, Christian Grillet, Stuart D. Jackson, Alvaro Casas-Bedoya, Andrew Read, Petar Atanackovic, Steven G. Duval, Stefano Palomba, Barry Luther-Davies, Stephen Madden, David J. Moss, and Benjamin J. Eggleton,
   Optica 2, 797-802 (2015)
8. Tunable narrowband microwave photonic filter created by stimulated Brillouin scattering from a silicon nanowire
   Alvaro Casas-Bedoya, Blair Morrison, Mattia Pagani, David Marpaung, and Benjamin J. Eggleton,
   Opt. Lett. 40, 4154-4157 (2015)
9. Independent manipulation of the phase and amplitude of optical sidebands in a highly-stable RF photonic filter
   Shayan Shahnia, Mattia Pagani, Blair Morrison, Benjamin J. Eggleton, and David Marpaung,
   Opt. Express 23, 23278-23286 (2015)
10. Ultracompact quantum splitter of degenerate photon pairs
    Jiakun He, Bryn A. Bell, Alvaro Casas-Bedoya, Yanbing Zhang, Alex S. Clark, Chunle Xiong, and Benjamin J. Eggleton,
    Optica 2, 779-782 (2015)
11. Impact of nonlinear loss on stimulated Brillouin scattering
    C. Wolff, P. Gutsche, M. J. Steel, B. J. Eggleton, and C. G. Poulton,
    J. Opt. Soc. Am. B 32, 1968-1978 (2015)
12. Instantaneous microwave frequency measurement using four-wave mixing in a chalcogenide chip, Optics Communications (2015)
    Mattia Pagani, Khu Vu, Duk-Yong Choi, Steve J. Madden, Benjamin J. Eggleton, David Marpaung,
    http://dx.doi.org/10.1016/j.optcom.2015.06.079
13. Low-error and broadband microwave frequency measurement in a silicon chip
    Mattia Pagani, Blair Morrison, Yanbing Zhang, Alvaro Casas-Bedoya, Timo Aalto, Mikko Harjanne, Markku Kapulainen, Benjamin J. Eggleton, and David Marpaung,
    Optica 2, 751-756 (2015)
14. Stimulated Brillouin scattering in integrated photonic waveguides: Forces, scattering mechanisms, and coupled-mode analysis
    C. Wolff, M. J. Steel, B. J. Eggleton, and C. G. Poulton,
    Phys. Rev. A 92, 013836 (2015)
15. Bi-photon spectral correlation measurements from a silicon nanowire in the quantum and classical regimes
    Iman Jizan, L. G. Helt, Chunle Xiong, Matthew J. Collins, Duk-Yong Choi, Chang Joon Chae, Marco Liscidini, M. J. Steel, Benjamin J. Eggleton, & Alex S. Clark,
    Sci. Rep. 5, 12557; doi: 10.1038/srep12557 (2015).
16. Silicon-on-sapphire pillar waveguides for Mid-IR supercontinuum generation
    Neetesh Singh, Darren D. Hudson, and Benjamin J. Eggleton,
    Opt. Express 23, 17345-17354 (2015)
17. Non-degenerate two-photon absorption in silicon waveguides: analytical and experimental study
    Yanbing Zhang, Chad Husko, Simon Lefrancois, Isabella H. Rey, Thomas F. Krauss, Jochen Schröder, and Benjamin J. Eggleton,
    Opt. Express 23, 17101-17110 (2015)
18. Compact and reconfigurable silicon nitride time-bin entanglement circuit
    C. Xiong, X. Zhang, A. Mahendra, J. He, D.-Y. Choi, C. J. Chae, D. Marpaung, A. Leinse, R. G. Heideman, M. Hoekman, C. G. H. Roeloffzen, R. M. Oldenbeuving, P. W. L. van Dijk, C. Taddei, P. H. W. Leong, and B. J. Eggleton,
    Optica 2, 724-727 (2015)
19. Enhancing the heralded single-photon rate from a silicon nanowire by time and wavelength division multiplexing pump pulses
    X. Zhang, I. Jizan, J. He, A. Clark, D. Choi, C. Chae, B. Eggleton, and C. Xiong,
    Opt. Lett. 40, 2489-2492 (2015)
20. Positive and negative phototunability of chalcogenide (AMTIR-1) microdisk resonator
    Neetesh Singh, Darren D. Hudson, Rongping Wang, Eric C. Mägi, Duk-Yong Choi, Christian Grillet, Barry Luther-Davies, Stephen Madden, and Benjamin J. Eggleton,
    Opt. Express 23, 8681-8686 (2015)
21. Enhancing and inhibiting stimulated Brillouin scattering in photonic integrated circuits
    Moritz Merklein, Irina V. Kabakova, Thomas F. S. Büttner, Duk-Yong Choi, Barry Luther-Davies, Stephen J. Madden & Benjamin J. Eggleton,
    Nature Communications 6, 6396, doi:10.1038/ncomms7396 (2015)
22. Photonic Crystal Waveguide Sources of Photons for Quantum Communication Applications
    Chunle Xiong; Collins, M.J.; Steel, M.J.; Krauss, T.F.; Eggleton, B.J.; Clark, A.S.,
    Selected Topics in Quantum Electronics, IEEE Journal of , vol.21, no.3, pp.1,10, May-June 2015 doi: 10.1109/JSTQE.2014.2375154
23. Low-power, chip-based stimulated Brillouin scattering microwave photonic filter with ultrahigh selectivity
    David Marpaung, Blair Morrison, Mattia Pagani, Ravi Pant, Duk-Yong Choi, Barry Luther-Davies, Steve J. Madden, and Benjamin J. Eggleton,
    Optica 2, 76-83 (2015)
24. Optimizing optical Bragg scattering for single-photon frequency onversion
    Simon Lefrancois, Alex S. Clark, and Benjamin J. Eggleton,
    Phys. Rev. A 91, 013837 (2015)
25. Nonlinear silicon photonics analyzed with the moment method
    Simon Lefrancois, Chad Husko, Andrea Blanco-Redondo, and Benjamin J. Eggleton,
    J. Opt. Soc. Am. B 32, 218-226 (2015)

2014 Publications

1. Germanium as a material for stimulated Brillouin scattering in the mid-infrared
   C. Wolff, R. Soref, C.G. Poulton, and B.J. Eggleton,
   Opt. Express 22, 30735-30747 (2014)
2. Mode conversion using stimulated Brillouin scattering in nanophotonic silicon waveguides
   Iman Aryanfar, Christian Wolff, M. J. Steel, Benjamin J. Eggleton, and Christopher G. Poulton,
   Opt. Express 22, 29270-29282 (2014)
3. Tunable wideband microwave photonic phase shifter using on-chip stimulated Brillouin scattering
   Mattia Pagani, David Marpaung, Duk-Yong Choi, Steve J. Madden, Barry Luther-Davies, and Benjamin J. Eggleton,
   Opt. Express 22, 28810-28818 (2014)
4. Controlling free-carrier temporal effects in silicon by dispersion engineering
   Andrea Blanco-Redondo, Daniel Eades, Juntao Li, Simon Lefrancois, Thomas F. Krauss, Benjamin J. Eggleton, and Chad Husko,
   Optica 1, 299-306 (2014)
5. Phase-locked, chip-based, cascaded stimulated Brillouin scattering
   Thomas F. S. Büttner, Moritz Merklein, Irina V. Kabakova, Darren D. Hudson, Duk-Yong Choi, Barry Luther-Davies, Stephen J. Madden, and Benjamin J. Eggleton,
   Optica 1, 311-314 (2014)
6. Ultra-wideband microwave photonic phase shifter with configurable amplitude response
   M. Pagani, D. Marpaung, and B. J. Eggleton,
   Opt. Lett. 39, 5854-5857 (2014)
7. 1.9 octave supercontinuum generation in a As2S3 step-index fiber driven by mid-IR OPCPA
   Darren D. Hudson, Matthias Baudisch, Daniel Werdehausen, Benjamin J. Eggleton, and Jens Biegert,
   Opt. Lett. 39, 5752-5755 (2014)
8. Generation of Nonclassical Biphoton States through Cascaded Quantum Walks on a Nonlinear Chip
   Alexander S. Solntsev, Frank Setzpfandt, Alex S. Clark, Che Wen Wu, Matthew J. Collins, Chunle Xiong, Andreas Schreiber, Fabian Katzschmann, Falk Eilenberger, Roland Schiek, Wolfgang Sohler, Arnan Mitchell, Christine Silberhorn, Benjamin J. Eggleton, Thomas Pertsch, Andrey A. Sukhorukov, Dragomir N. Neshev, and Yuri S. Kivshar,
   Phys. Rev. X 4, 031007 (2014)
9. Pulse evolution and phase-sensitive amplification in silicon waveguides
   Y. Zhang, C. Husko, J. Schröder, and B. J. Eggleton,
   Opt. Lett. 39, 5329-5332 (2014)
10. Low-threshold Brillouin laser at 2 um based on suspended-core chalcogenide fiber
    Kai Hu, Irina V. Kabakova, Thomas F. S. Büttner, Simon Lefrancois, Darren D. Hudson, Sailing He, and Benjamin J. Eggleton,
    Optics Letters, Vol. 39, Issue 16, pp. 4651-4654 (2014)
11. Ultra-high suppression microwave photonic bandstop filters
    David Marpaung, Blair Morrison, Mattia Pagani, Ravi Pant and Benjamin J. Eggleton,
    Chinese Science Bulletin (2014) 59(22):2684–2692
12. High-resolution measurement of spectral quantum correlations in the telecommunication band
    I. Jizan, A.S. Clark, L.G. Helt, M.J. Collins, E. Mägi, C. Xiong, M.J. Steel and B.J. Eggleton,
    Optics Communications, Volume 327, 15 September 2014, Pages 45-48, ISSN 0030-4018
13. Degenerate photon-pair generation in an ultracompact silicon photonic crystal waveguide
    Jiakun He, Alex S. Clark, Matthew J. Collins, Juntao Li, Thomas F. Krauss, Benjamin J. Eggleton, and Chunle Xiong,
    Opt. Lett. 39, 3575-3578 (2014)
14. Chalcogenide Brillouin lasers
    Irina V. Kabakova, Ravi Pant, Herbert G. Winful, and Benjamin J. Eggleton,
    Journal of Nonlinear Optical Physics & Materials, March 2014, Vol. 23, No. 01 (doi: 10.1142/S0218863514500015)
15. Phase-locking and Pulse Generation in Multi-Frequency Brillouin Oscillator via Four Wave Mixing
    Thomas F. S. Büttner, Irina V. Kabakova, Darren D. Hudson, Ravi Pant, Christopher G. Poulton, Alexander C. Judge & Benjamin J. Eggleton,
    Scientific Reports Volume: 4, Article number: 5032 DOI: doi:10.1038/srep05032
16. Hybrid photonic circuit for multiplexed heralded single photons
    Meany, T., Ngah, L. A., Collins, M. J., Clark, A. S., Williams, R. J., Eggleton, B. J., Steel, M. J., Withford, M. J., Alibart, O. and Tanzilli, S.,
    Laser & Photon. Rev.. doi: 10.1002/lpor.201400027 (2014)
17. Pump-degenerate phase-sensitive amplification in chalcogenide waveguides
    Yanbing Zhang, Jochen Schröder, Chad Husko, Simon Lefrancois, Duk-Yong Choi, Steve Madden, Barry Luther-Davies, and Benjamin J. Eggleton,
    J. Opt. Soc. Am. B 31, 780-787 (2014)
18. Nonlinear Integrated Microwave Photonics
    D. Marpaung, M. Pagani, B. Morrison, B.J. Eggleton,
    Lightwave Technology, Journal of , vol.PP, no.99, pp.1,1 doi: 10.1109/JLT.2014.2306676
19. On-chip stimulated Brillouin Scattering for microwave signal processing and generation
    Pant, R., Marpaung, D., Kabakova, I. V., Morrison, B., Poulton, C. G. and Eggleton, B. J. (2014),
    Laser & Photon. Rev. doi: 10.1002/lpor.201300154
20. Integrated optical auto-correlator based on third-harmonic generation in a silicon photonic crystal waveguide
    Christelle Monat, Christian Grillet, Matthew Collins, Alex Clark, Jochen Schroeder, Chunle Xiong, Juntao Li, Liam O’Faolain, Thomas F. Krauss, Benjamin J. Eggleton, & David J. Moss,
    Nature Communications 5, Article number: 3246 doi:10.1038/ncomms4246
21. Nonlinear interaction of meta-atoms through optical coupling
    AP Slobozhanyuk, PV Kapitanova, DS Filonov, DA Powell, IV Shadrivov, M Lapine, PA Belov, RC McPhedran, Yu S Kivshar,
    Applied Physics Letters 104, 014104
22. All-Optical OFDM With Cyclic Prefix Insertion Using Flexible Wavelength Selective Switch Optical Processing
    Jochen Schröder, Liang Bangyuan Du, Joel Carpenter, Benjamin J. Eggleton, and Arthur J. Lowery,
    Lightwave Technology, Journal of , vol.32, no.4, pp.752,759, Feb.15, 2014 doi: 10.1109/JLT.2013.2288638
23. Reconfigurable linear combination of phase-and-amplitude coded optical signals
    Yvan Paquot, Jochen Schröder, and Benjamin J. Eggleton,
    Opt. Express 22, 2609-2619 (2014)
24. Reconfigurable spatially-diverse optical vector network analyzer
    Joel Carpenter, Benjamin J. Eggleton, and Jochen Schröder,
    Opt. Express 22, 2706-2713 (2014)
25. Photonic Aharonov-Bohm effect in photon-phonon interactions
    E. Li, B.J. Eggleton, K. Fang and S. Fan,
    Nat. Commun. 5:3225 doi: 10.1038/ncomms4225 (2014)
26. 1×11 few-mode fiber wavelength selective switch using photonic lanterns,
    Joel Carpenter, Sergio G. Leon-Saval, Joel R. Salazar-Gil, Joss Bland-Hawthorn, Glenn Baxter, Luke Stewart, Steve Frisken, Michaël A. F. Roelens, Benjamin J. Eggleton, and Jochen Schröder,
    Opt. Express 22, 2216-2221 (2014)
27. 110×110 optical mode transfer matrix inversion
    Joel Carpenter, Benjamin J. Eggleton, and Jochen Schröder,
    Opt. Express 22, 96-101 (2014)
28. Observation of soliton compression in silicon photonic crystals
    A. Blanco-Redondo, C. Husko, D. Eades, Y. Zhang, J. Li, T.F. Krauss and B.J. Eggleton,
    Nature Communications 5, 3160, doi:10.1038/ncomms4160 (2014)
29. Phase-sensitive amplification in silicon photonic crystal waveguides
    Yanbing Zhang, Chad Husko, Jochen Schröder, Simon Lefrancois, Isabella H. Rey, Thomas F. Krauss, and Benjamin J. Eggleton,
    Opt. Lett. 39, 363-366 (2014)
30. Chalcogenide fiber-based distributed temperature sensor with sub-centimeter spatial resolution and enhanced accuracy
    Trung D. Vo, Jiakun He, Eric Magi, Matthew J. Collins, Alex S. Clark, Brian G. Ferguson, Chunle Xiong, and Benjamin J. Eggleton,
    Opt. Express 22, 1560-1568 (2014)
31. Tunable microwave photonic notch filter using on-chip stimulated Brillouin scattering
    Blair Morrison, David Marpaung, Ravi Pant, Enbang Li, Duk-Yong Choi, Steve Madden, Barry Luther-Davies, Benjamin J. Eggleton,
    Optics Communications, Volume 313, 15 February 2014, Pages 85-89, ISSN 0030-4018

2013 Publications

1. Broadband isotropic μ-near-zero metamaterials
   Pavel A Belov, Alexey P Slobozhanyuk, Dmitry S Filonov, Ilya V Yagupov, Polina V Kapitanova, Constantin R Simovski, Mikhail Lapine, Yuri S Kivshar,
   Applied Physics Letters 103 (21), 211903
2. Self-oscillations in nonlinear torsional metamaterials
   M Liu, DA Powell, IV Shadrivov, M Lapine, YS Kivshar,
   New Journal of Physics 15 (7), 073036
3. Nonlinear response via intrinsic rotation in metamaterials
   M Liu, Y Sun, DA Powell, IV Shadrivov, M Lapine, RC McPhedran, YS Kivshar,
   Physical Review B 87 (23), 235126
4. Focus issue: hyperbolic metamaterials
   Mikhail Noginov, Mikhail Lapine, Viktor Podolskiy, and Yuri Kivshar,
   Optics Express, Vol. 21, Issue 12, pp. 14895-14897 (2013)
5. Inducing and harnessing stimulated Brillouin scattering in photonic integrated circuits
   Benjamin J. Eggleton, Christopher G. Poulton, and Ravi Pant,
   Adv. Opt. Photon. 5, 536-587 (2013)
6. Reconfigurable, defectfree, ultrahigh-Q photonic crystal microcavities for sensing
   Snjezana Tomljenovic-Hanic and C. Martijn de Sterke,
   Sensors 13, 3262-3269 (2013)
7. Modeling photonic crystal interfaces and stacks: impedancebased approaches
   F. J. Lawrence, C. M. de Sterke, L. C. Botten, R.C. McPhedran, and K. B. Dossou,
   Advances in Optics and Photonics 5, 385-455 (2013)
8. Absorption enhancing proximity effects in aperiodic nanowire arrays
   B. C. P. Sturmberg, K. B. Dossou, L. C. Botten, A. A. Asatryan, C. G. Poulton, R. C. McPhedran, and C. M. de Sterke,
   Optics Express 21, A964-A969 (2013)
9. Fiber looped phase conjugation of polarization multiplexed signals for pre-compensation of fiber nonlinearity effect
   Mark D. Pelusi,
   Opt. Express 21, 21423-21432 (2013)
10. WDM Signal All-Optical Precompensation of Kerr Nonlinearity in Dispersion-Managed Fibers
    M.D. Pelusi,
    IEEE PHOTONICS TECHNOLOGY LETTERS Volume: 25 Issue: 1 Pages: 71-74 (2013)
11. Bidirectional multiplexing of heralded single photons from a silicon chip
    C. Xiong, T. D. Vo, M. J. Collins, J. Li, T. F. Krauss, M. J. Steel, A. S. Clark, and B. J. Eggleton,
    Opt. Lett. 38, 5176-5179 (2013)
12. Photoinduced axial quantization in chalcogenide microfiber resonators
    Andrew L. Watts, Neetesh Singh, Christopher G. Poulton, Eric C. Magi, Irina V. Kabakova, Darren D. Hudson, and Benjamin J. Eggleton,
    J. Opt. Soc. Am. B 30, 3249-3253 (2013)
13. Mode multiplexed single-photon and classical channels in a few-mode fiber
    Joel Carpenter, Chunle Xiong, Matthew J. Collins, Juntao Li, Thomas F. Krauss, Benjamin J. Eggleton, Alex S. Clark, and Jochen Schröder,
    Opt. Express 21, 28794-28800 (2013)
14. Multi-photon absorption limits to heralded single photon sources
    Chad A. Husko, Alex S. Clark, Matthew J. Collins, Alfredo De Rossi, Sylvain Combrié, Gaëlle Lehoucq, Isabella H. Rey, Thomas F. Krauss, Chunle Xiong & Benjamin J. Eggleton,
    Sci. Rep. 3, 3087, DOI:10.1038/srep03087 (2013)
15. Chip scale humidity sensing based on a microfluidic infiltrated photonic crystal
    Casas-Bedoya, A. and Shahnia, S. and Di Battista, D. and Mägi, E. and Eggleton, B. J.,
    Applied Physics Letters, 103, 181109 (2013)
16. Si3N4 ring resonator-based microwave photonic notch filter with an ultrahigh peak rejection
    David Marpaung, Blair Morrison, Ravi Pant, Chris Roeloffzen, Arne Leinse, Marcel Hoekman, Rene Heideman, and Benjamin J. Eggleton,
    Opt. Express 21, 23286-23294 (2013)
17. Frequency agile microwave photonic notch filter with anomalously high stopband rejection
    David Marpaung, Blair Morrison, Ravi Pant, and Benjamin J. Eggleton,
    Opt. Lett. 38, 4300-4303 (2013)
18. Integrated spatial multiplexing of heralded single-photon sources
    M.J. Collins, C. Xiong, I.H. Rey, T.D. Vo, J. He, S. Shahnia, C. Reardon, T.F. Krauss, M.J. Steel, A.S. Clark, and B.J. Eggleton,
    Nature Communications 4, 2582; doi:10.1038/ncomms3582 (2013)
19. Cavity Optical Pulse Extraction: ultra-short pulse generation as seeded Hawking radiation
    Eilenberger, F., Kabakova, I.V., de Sterke, C.M., Eggleton, B.J. & Pertsch, T.,
    Sci. Rep. 3, 2607; DOI:10.1038/srep02607 (2013)
20. Efficient inscription of Bragg gratings in As2S3 fibers using near bandgap light
    L. E. Zou, I. V. Kabakova, E. C. Mägi, E. Li, C. Florea, I. D. Aggarwal, B. Shaw, J. S. Sanghera, and B. J. Eggleton,
    Opt. Lett. 38, 3850-3853 (2013)
21. All-optical hash code generation and verification for low latency communications
    Yvan Paquot, Jochen Schröder, Mark D. Pelusi, and Benjamin J. Eggleton,
    Opt. Express 21, 23873-23884 (2013)
22. Acoustic confinement and stimulated Brillouin scattering in integrated optical waveguides
    Christopher G. Poulton, Ravi Pant, and Benjamin J. Eggleton,
    J. Opt. Soc. Am. B 30, 2657-2664 (2013)
23. Performance of Refractive Index Sensors Based On Directional Couplers in Photonic Crystal Fibers
    D.K.C. Wu, K.J. Lee, V. Pureur, and B.T. Kuhlmey,
    Lightwave Technology, Journal of 31, p. 3500-3510 (2013). doi:10.1109/JLT.2013.2283496
24. Hollow-core uniaxial metamaterial clad fibers with dispersive metamaterials
    S. Atakaramians, A. Argyros, S. C. Fleming, and B. T. Kuhlmey,
    J. Opt. Soc. Am. B 30, 851-867 (2013)
25. Narrow linewidth Brillouin laser based on chalcogenide photonic chip
    Irina V. Kabakova, Ravi Pant, Duk-Yong Choi, Sukhanta Debbarma, Barry Luther-Davies, Stephen J. Madden, and Benjamin J. Eggleton,
    Opt. Lett. 38, 3208-3211 (2013)
26. On-chip high sensitivity laser frequency sensing with Brillouin mutually-modulated cross-gain modulation
    Feng Gao, Ravi Pant, Enbang Li, Christopher G. Poulton, Duk-Yong Choi, Stephen J. Madden, Barry Luther-Davies, and Benjamin J. Eggleton,
    Opt. Express 21, 8605-8613 (2013)
27. Canonical quantization of macroscopic electrodynamics in a linear, inhomogeneous magnetoelectric medium
    A. C. Judge, M. J. Steel, J. E. Sipe, and C. M. de Sterke,
    Physical Review A 87, 033824 (2013)
28. Model for distributed feedback Brillouin lasers
    Herbert G. Winful, Irina V. Kabakova, and Benjamin J. Eggleton,
    Opt. Express 21, 16191-16199 (2013)
29. Two-photon interference between disparate sources for quantum networking
    A. R. McMillan, L. Labonté, A. S. Clark, B. Bell, O. Alibart, A. Martin, W. J. Wadsworth, S. Tanzilli and J. G. Rarity,
    Sci. Rep. 3, 2032 (2013)
30. Experimental characterization of universal one-way quantum computing
    B. Bell, M. S. Tame, A. S. Clark, R. W. Nock, W. J. Wadsworth and J. G. Rarity,
    New J. Phys. 15, 053030 (2013)
31. Multi-Color Quantum Metrology with Entangled Photons
    B. Bell, S. Kannan, A. R. McMillan, A. S. Clark, W. J. Wadsworth and J. G. Rarity,
    Phys. Rev. Lett. 111, 093603 (2013)
32. Phase-sensitive amplification of light in a χ(3) photonic chip using a dispersion engineered chalcogenide ridge waveguide
    Richard Neo, Jochen Schröder, Yvan Paquot, Duk-Yong Choi, Steve Madden, Barry Luther-Davies, and Benjamin J. Eggleton,
    Opt. Express 21, 7926-7933 (2013)
33. Automatic DGD and GVD compensation at 640 Gb/s based on scalar radio-frequency spectrum measurement
    Yvan Paquot, Jochen Schröder, Evarist Palushani, Richard Neo, Leif K. Oxenløwe, Steve Madden, Duk-Yong Choi, Barry Luther-Davies, Mark D. Pelusi, and Benjamin J. Eggleton,
    Appl. Opt. 52, 1919-1927 (2013)
34. High-efficiency frequency conversion in the single-photon regime
    Alex S. Clark, Shayan Shahnia, Matthew J. Collins, Chunle Xiong, and Benjamin J. Eggleton,
    Opt. Lett. 38, 947-949 (2013)
35. Heralded single-photon source in a III–V photonic crystal
    Alex S. Clark, Chad Husko, Matthew J. Collins, Gaelle Lehoucq, Stéphane Xavier, Alfredo De Rossi, Sylvain Combrié, Chunle Xiong, and Benjamin J. Eggleton,
    Opt. Lett. 38, 649-651 (2013)
36. Observation of Brillouin dynamic grating in a photonic chip
    Ravi Pant, Enbang Li, Christopher G. Poulton, Duk-Yong Choi, Steve Madden, Barry Luther-Davies, and Benjamin J. Eggleton,
    Opt. Lett. 38, 305-307 (2013)
37. Photonic-chip-based all-optical ultra-wideband pulse generation via XPM and birefringence in a chalcogenide waveguide
    Kang Tan, David Marpaung, Ravi Pant, Feng Gao, Enbang Li, Jian Wang, Duk-Yong Choi, Steve Madden, Barry Luther-Davies, Junqiang Sun, and Benjamin J. Eggleton,
    Opt. Express 21, 2003-2011 (2013)
38. An optical FPGA: Reconfigurable simultaneous multi-output spectral pulse-shaping for linear optical processing
    Jochen Schröder, Michaël A. F. Roelens, Liang B. Du, Arthur J. Lowery, Steve Frisken, and Benjamin J. Eggleton,
    Opt. Express 21, 690-697 (2013)
39. Flexible Helices for Nonlinear Metamaterials
    Alexey P Slobozhanyuk, Mikhail Lapine, David A Powell, Ilya V Shadrivov, Yuri S Kivshar, Ross C McPhedran, Pavel A Belov,
    Advanced Materials Volume 25, Issue 25, pages 3409–3412, July 5, 2013
40. Broadband diamagnetism in anisotropic metamaterials
    M Lapine, AK Krylova, PA Belov, CG Poulton, RC McPhedran, YS Kivshar,
    Physical Review B 87 (2), 024408
41. Twists and turns for metamaterials
    Mingkai Liu, Yue Sun, David A. Powell, Ilya V. Shadrivov, Mikhail Lapine, Ross C. McPhedran, Yuri S. Kivshar,
    arXiv preprint arXiv:1301.5960

2012 Publications

1. Surface mesoscopic effects in finite metamaterials
   Mikhail Lapine, Lukas Jelinek, and Ricardo Marqués,
   Optics Express, Vol. 20, Issue 16, pp. 18297-18302 (2012)
2. Wide-band negative permeability of nonlinear metamaterials
   Mikhail Lapine, Ilya Shadrivov, Yuri Kivshar,
   Scientific Reports 2, Article number: 412 doi:10.1038/srep00412
3. Higher-order core-guided modes in two-dimensional photonic bandgap fibers
   V. Pureur and B.T. Kuhlmey,
   J. Opt. Soc. Am. B 29, p. 1750-1765 (2012)
4. Hollow-core waveguides with uniaxial metamaterial cladding: modal equations and guidance conditions
   S. Atakaramians, A. Argyros, S.C. Fleming, and B.T. Kuhlmey,
   J. Opt. Soc. Am. B-Opt. Phys. 29, p. 2462-2477 (2012)
5. Effect of low-Raman window position on correlated photon-pair generation in a chalcogenide Ge11.5As24Se64.5 nanowire
   J. He, C. Xiong, A. S. Clark, M. J. Collins, X. Gai, D.-Y. Choi, S. J. Madden, B. Luther-Davies, and B. J. Eggleton,
   J. Appl. Phys. 112, 123101:1-5 (2012), DOI: 10.1063/1.4769740
6. Multi-wavelength Gratings formed via cascaded Stimulated Brillouin Scattering
   Thomas F. S. Büttner, Irina V. Kabakova, Darren D. Hudson, Ravi Pant, Enbang Li, and Benjamin J. Eggleton,
   Opt. Express 20, 26434–26440 (2012)
7. Broadband photon-counting Raman spectroscopy in short optical waveguides
   M. J. Collins, A. C. Judge, A. S. Clark, S. Shahnia, E. C. Mägi, M. J. Steel, C. Xiong, and B. J. Eggleton,
   Appl. Phys. Lett. 101, 211110 (2012)
8. Plane-wave scattering by a photonic crystal slab: Multipole modal formulation and accuracy
   PY Chen, MA Byrne, AA Asatryan, LC Botten, KB Dossou, A Tuniz, RC McPhedran, CM de Sterke, CG Poulton, MJ Steel,
   Waves in Random and Complex Media, Volume 22, Issue 4, 531-570
9. Dynamics of photoinduced refractive index changes in As2S3 fibers
   Irina V. Kabakova, Liner Zou, George A. Brawley, Catalin Florea, Ishwar D. Aggarwal, Jasbinder S. Sanghera, Eric C. Mägi, Enbang Li, and Benjamin J. Eggleton,
   Appl. Opt. 51, 7333-7338 (2012)
10. Characteristics of correlated photon pairs generated in ultra-compact silicon slow-light photonic crystal waveguides
    C. Xiong, Christelle Monat, Matthew J. Collins, Laurent Tranchant, David Petiteau, Alex S. Clark, Christian Grillet, Graham D. Marshall, M. J. Steel, Juntao Li, Liam O’Faolain, Thomas F. Krauss, and Benjamin J. Eggleton,
    IEEE J. Sel. Top. Quant. Electron. 18, 1676–1683 (2012). DOI: 10.1109/JSTQE.2012.2188995
11. Slow-light dispersion engineering of photonic crystal waveguides using selective microfluidic infiltration
    A. Casas-Bedoya, C. Husko, C. Monat, C. Grillet, N. Gutman, P. Domachuk, and B. J. Eggleton,
    Opt. Lett. 37, 4215-4217 (2012)
12. Highly nonlinear chalcogenide glass micro/nanofiber devices: Design, theory, and octave-spanning spectral generation
    Darren D. Hudson, Eric C. Mägi, Alexander C. Judge, Stephen A. Dekker, Benjamin J. Eggleton,
    Optics Communications, Volume 285, Issue 23, 15 October 2012, Pages 4660-4669, ISSN 0030-4018, 10.1016/j.optcom.2012.05.002.
13. Amorphous silicon nanowires combining high nonlinearity, FOM and optical stability
    C. Grillet, L. Carletti, C. Monat, P. Grosse, B. Ben Bakir, S. Menezo, J. M. Fedeli, and D. J. Moss,
    Opt. Express, Vol. 20, Issue 20, pp. 22609-22615 (2012)
14. Design for broadband on-chip isolator using stimulated Brillouin scattering in dispersion-engineered chalcogenide waveguides
    Christopher G. Poulton, Ravi Pant, Adam Byrnes, Shanhui Fan, M. J. Steel, and Benjamin J. Eggleton,
    Opt. Express 20, 21235-21246 (2012)
15. Low Raman-noise correlated photon-pair generation in a dispersion-engineered chalcogenide As2S3 planar waveguide
    Matthew J. Collins, Alex S. Clark, Jiakun He, Duk-Yong Choi, Robert J. Williams, Alexander C. Judge, Steve J. Madden, Michael J. Withford, M. J. Steel, Barry Luther-Davies, Chunle Xiong, and Benjamin J. Eggleton,
    Opt. Lett. 37, 3393-3395 (2012)
16. Photonic chip based tunable and reconfigurable narrowband microwave photonic filter using stimulated Brillouin scattering
    Adam Byrnes, Ravi Pant, Enbang Li, Duk-Yong Choi, Christopher G. Poulton, Shanhui Fan, Steve Madden, Barry Luther-Davies, and Benjamin J. Eggleton,
    Opt. Express 20, 18836-18845 (2012)
17. Energy efficient nonlinear optics in silicon: are slow-light structures more efficient than nanowires?
    Chad Husko and Benjamin J. Eggleton,
    Opt. Lett. 37, 2991-2993 (2012)
18. Raman scattering effects on correlated photon-pair generation in chalcogenide
    Alex S. Clark, Matthew J. Collins, Alexander C. Judge, Eric C. Mägi, Chunle Xiong, and Benjamin J. Eggleton,
    Opt. Express 20, 16807-16814 (2012)
19. Multicore, tapered optical fiber for nonlinear pulse reshaping and saturable absorption
    Thomas F. S. Büttner, Darren D. Hudson, Eric C. Mägi, Alvaro Casas Bedoya, Thierry Taunay, and Benjamin J. Eggleton,
    Opt. Lett. 37, 2469-2471 (2012)
20. Optics, Photonics and Electromagnitism
    Noud W. L. Speijcken, Mehmet A. Dundar, Alvaro Casas Bedoya, Christelle Monat, Christian Grillet, Peter Domachuk, Richard Notzel, Benjamin J. Eggleton, and Rob W. van der Heijden,
    Appl. Phys. Lett. 100, 261107 (2012), DOI:10.1063/1.4732093
21. Demonstration of an ultrafast nonlinear microcavity modelocked laser
    M.Peccianti, A.Pasquazi, Y.Park, B.E Little, S.Chu, D.J Moss, and R.Morandotti,
    Nature Communications 3 April 3, 765 doi:10.1038/ncomms1762 (2012)
22. Toward On-Chip Phase-Sensitive Optical Temporal Waveform Measurements
    A.Pasquazi, J.Azaña, M.Peccianti, D.J. Moss and R.Morandotti,
    IEEE Photonics Journal, 4 (2) 633 (2012).
23. Time-Lens Measurement of Subpicosecond Optical Pulses in CMOS Compatible High-Index Glass Waveguides
    A. Pasquazi, Y. Park, J. Azaña, François Légaré, R. Morandotti, B. E. Little, S. T. Chu, and D. J. Moss,
    IEEE Journal of Selected Topics in Quantum Electronics (JSTQE) Special Issue on All-Optical Signal Processing 18 (2) Page(s): 629 – 636 (2012)
24. Switching and dynamic wavelength conversion in a fiber grating cavity
    Irina V. Kabakova, Zhangwei Yu, David Halliwell, Pierre-Yves Fonjallaz, C. Martijn de Sterke, and Walter Margulis,
    J. Opt. Soc. Am. B. 29, 155-160 (2012).
25. A flexible Bloch mode method for complex band structures and impedances of photonic crystals
    Felix J. Lawrence, C. Martijn de Sterke, R.C. McPhedran, Lindsay C. Botten, and Kokou B. Dossou,
    J. Appl. Phys. 111, 013105:1-8 (2012).
26. Modal formulation for diffraction by absorbing photonic crystal slabs
    K.B. Dossou, L.C. Botten, A.A. Asatryan, B.C.P. Sturmberg, M.A. Byrne, C.G. Poulton, R.C. McPhedran, and C. Martijn de Sterke,
    J. Opt. Soc. Am. A 29, 817-831 (2012).
27. Frozen and broadband slow light in coupled periodic nanowire waveguides
    Nadav Gutman, W. Hugo Dupree, Yue Sun, Andrey A. Sukhorukov, and C. Martijn de Sterke,
    Optics Express 20, 3520-3528 (2012).
28. Slow and frozen light in optical waveguides with multiple gratings: degenerate band edges and stationary reflection points
    Nadav Gutman, C. Martijn de Sterke, Andrey A. Sukhorukov, and Lindsay C. Botten,
    Phys. Rev. A 85, 033804:1-11 (2012).
29. Reconfigurable photonic crystal waveguides created by selective liquid infiltration
    A. Casas Bedoya, P. Domachuk, C. Grillet, C. Monat, E.C. Mägi, E. Li, and B. J. Eggleton,
    Opt. Express 20, 11046-11056 (2012)
30. Optical waveform synthesizer and its application to high-harmonic generation
    Shu-Wei Huang, Giovanni Cirmi, Jeffrey Moses, Kyung-Han Hong, Siddharth Bhardwaj, Jonathan R Birge, Li-Jin Chen, Irina V Kabakova, Enbang Li, Benjamin J Eggleton, Giulio Cerullo and Franz X Kärtner,
    Journal of Physics B: Atomic, Molecular and Optical Physics 45 074009 (2012)
31. Optically tunable compensation of nonlinear signal distortion in optical fiber by end-span optical phase conjugation
    Mark D. Pelusi and Benjamin J. Eggleton,
    Opt. Express 20, 8015-8023 (2012)
32. Photonic-chip-based tunable slow and fast light via stimulated Brillouin scattering
    Ravi Pant, Adam Byrnes, Christopher G. Poulton, Enbang Li, Duk-Yong Choi, Steve Madden, Barry Luther-Davies, and Benjamin J. Eggleton,
    Opt. Lett. 37, 969-971 (2012)
33. Near-zero anomalous dispersion Ge11.5As24Se64.5 glass nanowires for correlated photon pair generation: design and analysis
    X. Gai, R. P. Wang, C. Xiong, M. J. Steel, B. J. Eggleton, and B. Luther-Davies,
    Opt. Express 20, 776-786 (2012)
34. Photonic-Chip-Based Ultrafast Waveform Analysis and Optical Performance Monitoring
    Vo, T. D.; Schröder, J.; Corcoran, B.; Van Erps, J.; Madden, S. J.; Choi, D.-Y.; Bulla, D. A. P.; Luther-Davies, B.; Pelusi, M. D.; Eggleton, B. J.
    Selected Topics in Quantum Electronics, IEEE Journal of , vol.18, no.2, pp.834-846, March-April 2012
35. Photonic chip based ultrafast optical processing based on high nonlinearity dispersion engineered chalcogenide waveguides
    B.J. Eggleton, T.D. Vo, R. Pant, J. Schroeder, M.D. Pelusi, D. Yong Choi, S.J. Madden, B. Luther-Davies,
    Laser & Photonics Reviews, Volume 6, Issue 1, pages 97–114, January 2012

2011 Publications

1. Metamaterials and metaoptics
   Ross C. McPhedran, Ilya V. Shadrivov, Boris T. Kuhlmey and Yuri S. Kivshar,
   NPG Asia Materials 3, 100-108 (2011)
2. Hollow-core photonic band gap fibers for particle acceleration
   Robert J. Noble, James E. Spencer, Boris T. Kuhlmey,
   Phys. Rev. Special Topics – Accelerators and Beams 14, 121303 (2011)
3. Switching and dynamic wavelength conversion in a fiber grating cavity
   Irina V. Kabakova, Zhangwei Yu, David Halliwell, Pierre-Yves Fonjallaz, Oleksandr Tarasenko, C. Martijn de Sterke, and Walter Margulis,
   JOSA B, Vol. 29, Issue 1, pp. 155-160 (2012)
4. Photoinduced whispering gallery mode microcavity resonator in a chalcogenide microfiber
   Feng Luan, Eric Magi, Tianxun Gong, Irina Kabakova, and Benjamin J. Eggleton,
   Opt. Lett. 36, 4761-4763 (2011)
5. Single parameter optimization for simultaneous automatic compensation of multiple orders of dispersion for a 1.28 Tbaud signal
   Yvan Paquot, Jochen Schröder, Jürgen Van Erps, Trung D. Vo, Mark D. Pelusi, Steve Madden, Barry Luther-Davies, and Benjamin J. Eggleton,
   Opt. Express 19, 25512-25520 (2011)
6. Experimental observation of evanescent modes at the interface to slow-light photonic crystal waveguides
   Marko Spasenović, Thomas P. White, Sangwoo Ha, Andrey A. Sukhorukov, Tobias Kampfrath, Yuri S. Kivshar, C. Martijn de Sterke, Thomas F. Krauss, and L. (Kobus) Kuipers,
   Optics Letters, Vol. 36, Issue 7, pp. 1170-1172 (2011)
7. Slow-light and evanescent modes at interfaces in photonic crystal waveguides: optimal extraction from experimental near-field measurements
   Sangwoo Ha, Marko Spasenović, Andrey A. Sukhorukov, Thomas P. White, C. Martijn de Sterke, L. (Kobus) Kuipers, Thomas F. Krauss, and Yuri S. Kivshar,
   JOSA B, Vol. 28, Issue 4, pp. 955-963 (2011)
8. Degenerate band edges in optical fiber with multiple grating: efficient coupling to slow light
   Nadav Gutman, Lindsay C. Botten, Andrey A. Sukhorukov, and C. Martijn de Sterke,
   Optics Letters, Vol. 36, Issue 16, pp. 3257-3259 (2011)
9. Sub-picosecond phase-sensitive optical pulse characterization on a chip
   Alessia Pasquazi, Marco Peccianti, Yongwoo Park, Brent E. Little, Sai T. Chu, Roberto Morandotti, José Azaña and David J. Moss,
   Nature Photonics 5, 618–623, (2011)
10. Scattering by cavities of arbitrary shape in an infinite plate and associated vibration problems
    Michael J. A. Smith, Michael H. Meylan, Ross C. McPhedran,
    JOURNAL OF SOUND AND VIBRATION Volume 330 Issue 16 Pages 4029-4046 (2011)
11. Folded bands in metamaterial photonic crystals
    P Y Chen, C G Poulton, A A Asatryan, M J Steel, L C Botten, C Martijn de Sterke and R C McPhedran,
    New J. Phys. 13 053007 (2011)
12. Modal analysis of enhanced absorption in silicon nanowire arrays
    Björn C. P. Sturmberg, Kokou B. Dossou, Lindsay C. Botten, Ara A. Asatryan, Christopher G. Poulton, C. Martijn de Sterke, and Ross C. McPhedran,
    Opt. Express 19, A1067-A1081 (2011)
13. The colours of cloaks
    Sébastien Guenneau, Ross C McPhedran, Stefan Enoch, Alexander B Movchan, Mohamed Farhat and Nicolae-Alexandru P Nicorovici,
    J. Opt. 13 024014 (2011)
14. Relative local density of states and cloaking in finite clusters of coated cylinders
    N.A.P. Nicorovici, R.C. McPhedran ands L.C. Botten,
    Waves in Random and Complex Media, Volume 21, Issue 2, pp. 248-277 (2011)
15. Ultracompact all-optical XOR logic gate in a slow-light silicon photonic crystal waveguide
    C. Husko, T. D. Vo, B. Corcoran, J. Li, T. F. Krauss, and B. J. Eggleton,
    Opt. Express 19, 20681-20690 (2011)
16. All-optical XOR logic gate for 40Gb/s DPSK signals via FWM in a silicon nanowire
    F. Li, T.D. Vo, C. Husko, M. Pelusi, D-X. Xu, A. Densmore, R. Ma, S. Janz, B.J. Eggleton, and D.J. Moss,
    Opt. Express 19, 20364-20371 (2011)
17. Cavity enhanced stimulated Brillouin scattering in an optical chip for multiorder Stokes generation
    R. Pant, E. Li, D.-Y. Choi, C. G. Poulton, S. J. Madden, B. Luther-Davies, and B. J. Eggleton,
    Opt. Lett. 36, 3687-3689 (2011)
18. Correlated photon-pair generation in a periodically poled MgO doped stoichiometric lithium tantalate reverse proton exchanged waveguide
    M. Lobino, G. D. Marshall, C. Xiong, A. S. Clark, D. Bonneau, C. M. Natarajan, M. G. Tanner, R. H. Hadfield, S. N. Dorenbos, T. Zijlstra, V. Zwiller, M. Marangoni, R. Ramponi, M. G. Thompson, B. J. Eggleton, and J. L. O’Brien,
    Appl. Phys. Lett., 99, 081110 (2011)
19. Highly-efficient, octave spanning soliton self-frequency shift using a specialized photonic crystal fiber with low OH loss
    Stephen A. Dekker, Alexander C. Judge, Ravi Pant, Itandehui Gris-Sánchez, Jonathan C. Knight, C. Martjn de Sterke, and Benjamin J. Eggleton,
    Optics Express, Vol. 19, Issue 18, pp. 17766-17773 (2011)
20. Slow-light enhanced correlated photon pair generation in a silicon photonic crystal waveguide
    C. Xiong, Christelle Monat, Alex S. Clark, Christian Grillet, Graham D. Marshall, M. J. Steel, Juntao Li, Liam O’Faolain, Thomas F. Krauss, John G. Rarity, and Benjamin J. Eggleton,
    Optics Letters, Vol. 36, Issue 17, pp. 3413-3415 (2011)
21. High-energy pulse synthesis with sub-cycle waveform control for strong-field physics
    Shu-Wei Huang, Giovanni Cirmi, Jeffrey Moses, Kyung-Han Hong, Siddharth Bhardwaj, Jonathan R. Birge, Li-Jin Chen, Enbang Li, Benjamin J. Eggleton, Giulio Cerullo & Franz X. Kärtner,
    Nature Photonics (2011), doi:10.1038/nphoton.2011.140
22. Low propagation loss silicon-on-sapphire waveguides for the mid-infrared
    Fangxin Li, Stuart D. Jackson, Christian Grillet, Eric Magi, Darren Hudson, Steven J. Madden, Yashodhan Moghe, Christopher O’Brien, Andrew Read, Steven G. Duvall, Peter Atanackovic, Benjamin J. Eggleton, and David J. Moss,
    Optics Express, Vol. 19, Issue 16, pp. 15212-15220 (2011)
23. Third-harmonic generation in slow-light chalcogenide glass photonic crystal waveguides
    Christelle Monat, Marcel Spurny, Christian Grillet, Liam O’Faolain, Thomas F. Krauss, Benjamin J. Eggleton, Douglas Bulla, Steve Madden, and Barry Luther-Davies,
    Optics Letters, Vol. 36, Issue 15, pp. 2818-2820 (2011)
24. Measuring the dispersive properties of liquids using a microinterferometer
    Alvaro Casas Bedoya, Christelle Monat, Peter Domachuk, Christian Grillet, and Benjamin J. Eggleton,
    Applied Optics, Vol. 50, Issue 16, pp. 2408-2412 (2011)
25. Ultracompact 160 Gbaud all-optical demultiplexing exploiting slow light in an engineered silicon photonic crystal waveguide
    Bill Corcoran, Mark D. Pelusi, Christelle Monat, Juntao Li, Liam O’Faolain, Thomas F. Krauss, and Benjamin J. Eggleton,
    Opt. Lett. 36, 1728-1730 (2011)
26. Relative local density of states and cloaking in finite clusters of coated cylinders
    Nicorovici, N.A., McPhedran, R.C. and Botten. L.C.,
    Waves in Random and Complex Media, 21, 248–277 (2011)
27. Octave spanning supercontinuum in an As2S3taper using ultralow pump pulse energy
    Darren D. Hudson, Stephen A. Dekker, Eric C. Mägi, Alexander C. Judge, Stuart D. Jackson, Enbang Li, J. S. Sanghera, L. B. Shaw, I. D. Aggarwal, and Benjamin J. Eggleton,
    Opt. Lett. 36, 1122-1124 (2011)
28. On-chip stimulated Brillouin scattering
    Ravi Pant, Christopher G. Poulton, Duk-Yong Choi, Hannah Mcfarlane, Samuel Hile, Enbang Li, Luc Thevenaz, Barry Luther-Davies, Stephen J. Madden, and Benjamin J. Eggleton,
    Opt. Express 19, 8285-8290 (2011)
29. Silicon Chip based Real-time Dispersion Monitoring for 640 Gbit/s DPSK Signals
    Vo, T.; Corcoran, B.; Schroder, J.; Pelusi, M.D.; Xu, D.X.; Densmore, A.; Ma, R.; Janz, S.; Moss, D.J.; Eggleton, B.J.; ,
    Journal of Lightwave Technology, vol.PP, no.99, pp.1, 0
    doi: 10.1109/JLT.2011.2141974
30. OSNR monitoring of a 1.28 Tbaud signal by interferometry inside a Wavelength Selective Switch
    J, Schroeder, O. Brasier, J. Van Erps, M. Roelens, S. Frisken, B.J. Eggleton,
    J. Lightwave Technology, vol.PP, no.99, pp.1, 0
    doi: 10.1109/JLT.2011.2132755 (2011)
31. Bragg grating-based optical switching in a bismuth-oxide fiber with strong χ(3)-nonlinearity
    Irina V. Kabakova, Dan Grobnic, Stephen Mihailov, Eric C. Mägi, C. Martijn de Sterke, and Benjamin J. Eggleton,
    Opt. Express 19, 5868-5873 (2011)
32. Chalcogenide photonics
    Benjamin J. Eggleton, Barry Luther-Davies and Kathleen Richardson,
    Nature Photonics, Vol. 5, pp. 141–148, (2011)
33. Photonic chip-based all-optical XOR gate for 160 Gbit/s DPSK signals
    Trung D. Vo, Ravi Pant, Mark D. Pelusi, Jochen Schröder, Duk-Yong Choi, Sukhanta K. Debbarma, Stephen J. Madden, Barry Luther-Davies, and Benjamin J. Eggleton,
    Optics Letters, Vol. 36, Issue 5, pp. 710-712 (2011)
34. Generation of correlated photon pairs in a chalcogenide As2S3 waveguide
    C. Xiong, G. D. Marshall, A. Peruzzo, M. Lobino, A. S. Clark, D.-Y. Choi, S. J. Madden, C. M. Natarajan, M. G. Tanner, R. H. Hadfield, S. N. Dorenbos, T. Zijlstra, V. Zwiller, M. G. Thompson, J. G. Rarity, M. J. Steel, B. Luther-Davies, B. J. Eggleton, and J. L. O’Brien,
    Appl. Phys. Lett. 98, 051101 (2011)
35. Ultrahigh-bandwidth, on-chip all-optical pulse erasure using the χ(3) process in a nonlinear chalcogenide waveguide
    Ravi Pant, Trung D. Vo, Chunle Xiong, Mark D. Pelusi, Steve J. Madden, Barry Luther-Davies, and Benjamin J. Eggleton,
    Opt. Lett. 36, 298-300 (2011))

2010 Publications

1. Photonic-crystal surface modes found from impedances
   Felix J. Lawrence, Lindsay C. Botten, Kokou B. Dossou, R. C. McPhedran, and C. Martijn de Sterke,
   Phys. Rev. A 82, 053840 (2010)
2. Liquid crystal dynamics in a photonic crystal cavity created by selective microfluidic infiltration
   A. Casas Bedoya, S. Mahmoodian, C. Monat, S. Tomljenovic-Hanic, C. Grillet, P. Domachuk, E.C. Mägi, B. J. Eggleton, and R. W. van der Heijden,
   Opt. Express 18, 27280-27290 (2010)
3. Optical phase conjugation by an As2S3 glass planar waveguide for dispersion-free transmission of WDM-DPSK signals over fiber
   M.D. Pelusi, F. Luan, D.-Y. Choi, S.J. Madden, D.A.P. Bulla, B. Luther-Davies, and B.J. Eggleton,
   Opt. Express 18, 26686-26694 (2010)
4. Photosensitive and thermal nonlinear effects in chalcogenide photonic crystal cavities
   Michael W. Lee, Christian Grillet, Christelle Monat, Eric Mägi, Snjezana Tomljenovic-Hanic, Xin Gai, Steve Madden, Duk-Yong Choi, Douglas Bulla, Barry Luther-Davies, and Benjamin J. Eggleton,
   Opt. Express 18, 26695-26703 (2010)
5. Automatic dispersion compensation for 1.28Tb/s OTDM signal transmission using photonic-chip-based dispersion monitoring,
   Jürgen Van Erps, Jochen Schröder, Trung D. Vo, Mark D. Pelusi, Steve Madden, Duk-Yong Choi, Douglas A. Bulla, Barry Luther-Davies, and Benjamin J. Eggleton,
   Opt. Express Vol. 18, pp. 25415-25421 (2010)
6. Solid-core fiber with ultra-wide bandwidth transmission window due to inhibited coupling
   Thomas Grujic, Boris T. Kuhlmey, Alexander Argyros, Stéphane Coen, and C. Martijn de Sterke,
   Optics Express, Vol. 18, pp. 25556-25566 (2010)
7. Paired modes of heterostructure cavities in photonic crystal waveguides with split band edges
   S. Mahmoodian, A. A. Sukhorukov, S. Ha, A. V. Lavrinenko, C. G. Poulton, K. B. Dossou, L. C. Botten, R. C. McPhedran, and C. M. de Sterke,
   Optics Express, Vol. 18, Issue 25, pp. 25693-25701 (2010)
8. All-optical wavelength conversion in an integrated ring resonator
   Alessia Pasquazi, Raja Ahmad, Martin Rochette, Michael Lamont, Brent E. Little, Sai T. Chu, Roberto Morandotti, and David J. Moss,
   Optics Express, Vol. 18, Issue 4, pp. 3858-3863 (2010)
9. Subpicosecond optical pulse compression via an integrated nonlinear chirper
   Marco Peccianti, Marcello Ferrera, Luca Razzari, Roberto Morandotti, Brent E. Little, Sai T. Chu, and David J. Moss,
   Optics Express, Vol. 18, Issue 8, pp. 7625-7633 (2010)
10. CMOS-compatible integrated optical hyper-parametric oscillator
    L. Razzari, M. Ferrera, D. Duchesne, R. Morandotti, B. E. Little, S. Chu and D. J. Moss,
    Nature Photonics 4, 41-45 (2010)
11. On-chip CMOS-compatible all-optical integrator
    M. Ferrera, Y. Park, L. Razzari, Brent E. Little, Sai T. Chu, R. Morandotti, D. J. Moss, and J. Azaña,
    Nature Communications, Article 29, 1 doi:10.1038/ncomms1028, June 15 (2010)
12. Stacked dielectric gratings for sub-wavelength surface field synthesis
    C. J. Handmer, C. Martijn de Sterke, R. C. McPhedran, L. C. Botten, M. J. Steel, and A. Rahmani,
    JOSA B, Vol. 27, Issue 12, pp. 2580-2594 (2010)
13. Collisions and turbulence in optical rogue wave formation
    G. Genty, C.M. de Sterke, O. Bang, F. Dias, N. Akhmediev, and J.M. Dudley,
    Physics Letters A 374, 989-996 (2010)
14. Coupled waveguide modes in hexagonal photonic crystals
    J. Scott Brownless, Sahand Mahmoodian, Kokou B. Dossou, Felix J. Lawrence, Lindsay C. Botten, and C. Martijn de Sterke,
    Optics Express, Vol. 18, Issue 24, pp. 25346-25360 (2010)
15. Theory of dispersive wave frequency shift via trapping by a soliton in an axially nonuniform optical fiber
    Alexander C. Judge, Ole Bang, and C. Martijn de Sterke,
    JOSA B, Vol. 27, Issue 11, pp. 2195-2202 (2010)
16. Ultrafast nonlinear optofluidics in selectively liquid-filled photonic crystal fibers
    M. Vieweg, T. Gissibl, S. Pricking, B. T. Kuhlmey, D. C. Wu, B. J. Eggleton, and H. Giessen,
    Opt. Express 18, 25232-25240 (2010)
17. Accuracy of Waveform Spectrum Analysis for Ultrashort Optical Pulses
    M. D. Pelusi, T. D. Vo, and B. J. Eggleton,
    IEEE Transactions on Microwave Theory and Techniques 58, 3059-3070 (2010)
18. Photonic Chip based Simultaneous Multi-impairment Monitoring for Phase-modulated Optical Signals
    T. D. Vo, J. Schröder, M. D. Pelusi, S. J. Madden, D.-Y. Choi, D. A. P. Bulla, B. Luther-Davies, and B. J. Eggleton,
    Journal of Lightwave Technology 28, 3176-3183 (2010)
19. Bistable switching and reshaping of optical pulses in a Bragg grating cavity
    Irina V. Kabakova, C. Martijn de Sterke, and Benjamin J. Eggleton,
    J. Opt. Soc. Am. B 27, 2648-2653 (2010)
20. Aberration-free ultra-fast optical oscilloscope using a four-wave mixing based time-lens
    Jochen Schroeder, Fan Wang, Aisling Clarke, Eva Ryckeboer, Mark Pelusi, Michaël A.F. Roelens and Benjamin J. Eggleton,
    Optics Communications, Vol. 283, pp. 2611-2614 (2010)
21. Design of ultrahigh-Qphotoinduced cavities in defect-free photonic crystal slabs
    S. Tomljenovic-Hanic and C. M. de Sterke,
    Optics Express Vol. 18, Iss. 20, pp. 21397–21403 (2010)
22. Four-wave mixing in slow light engineered silicon photonic crystal waveguides
    C. Monat, M. Ebnali-Heidari, C. Grillet, B. Corcoran, B. J. Eggleton, T. P. White, L. O’Faolain, J. Li, and T. F. Krauss,
    Opt. Express 18, 22915-22927 (2010)
23. Dark and bright pulse passive mode-locked laser with in-cavity pulse-shaper
    Jochen B. Schroeder, Stéphane Coen, Thibaut Sylvestre, and Benjamin J. Eggleton,
    Opt. Express 18, 22715-22721 (2010)
24. Blazing evanescent grating orders: a spectral approach to beating the Rayleigh limit
    C. J. Handmer, C. Martijn de Sterke, R. C. McPhedran, L. C. Botten, M. J. Steel, and A. Rahmani,
    Optics Letters, Vol. 35, Issue 17, pp. 2846-2848 (2010)
25. Silicon nanowire based radio-frequency spectrum analyzer
    Bill Corcoran, Trung D. Vo, Mark D. Pelusi, Christelle Monat, Dan-Xia Xu, Adam Densmore, Rubin Ma, Siegfried Janz, David J. Moss, and Benjamin J. Eggleton,
    Optics Express, Vol. 18, Issue 19, pp. 20190-20200 (2010)
26. Investigation of all-optical analog-to-digital quantization using a chalcogenide waveguide: A step towards on-chip analog-to-digital conversion
    Ravi Pant, Chunle Xiong, Steve Madden, Barry Luther Davies and Benjamin J. Eggleton,
    Optics Communications 283, 2258-2262 (2010)
27. Characterization and optimization of photonic crystal fibers for enhanced soliton self-frequency shift
    Ravi Pant, Alexander C. Judge, Eric C. Magi, Boris T. Kuhlmey, Martijn de Sterke, and Benjamin J. Eggleton,
    J. Opt. Soc. Am. B 27, 1894-1901 (2010)
28. Slow light enhanced nonlinear optics in periodic structures
    C. Monat, C.M. de Sterke and B. J. Eggleton,
    J. Opt. 12, 104003 (2010)
29. Simultaneous multi-channel OSNR monitoring with a wavelength selective switch
    Jochen Schröder, Owen Brasier, Trung D. Vo, Michaël A. F. Roelens, Steve Frisken, and Benjamin J. Eggleton,
    Opt. Express 18, 22299-22304 (2010)
30. Quantum-correlated photon pair generation in chalcogenide As2S3 waveguides
    C. Xiong, L. G. Helt, A. C. Judge, G. D. Marshall, M. J. Steel, J. E. Sipe, and B. J. Eggleton,
    Opt. Express 18, 16206-16216 (2010)
31. Photonic chip based transmitter optimization and receiver demultiplexing of a 1.28 Tbit/s OTDM signal
    T. D. Vo, H. Hu, M. Galili, E. Palushani, J. Xu, L. K. Oxenløwe, S. J. Madden, D.-Y. Choi, D. A. P. Bulla, M. D. Pelusi, J. Schröder, B. Luther-Davies, and B. J. Eggleton,
    Opt. Express 18, 17252-17261 (2010)
32. Soliton self-frequency shift performance in As2S3 waveguides
    Alexander C. Judge, Stephen A. Dekker, Ravi Pant, C. Martijn de Sterke, and Benjamin J. Eggleton,
    Opt. Express 18, 14960-14968 (2010)
33. Performance of field-enhanced optical switching in fiber Bragg gratings
    Irina V. Kabakova, Therese Walsh, C. Martijn de Sterke, and Benjamin J. Eggleton,
    J. Opt. Soc. Am. B 27, 1343-1351 (2010)
34. Soliton mediated optical quantization in the transmission of one-dimensional photonic crystals
    Falk Eilenberger, C. Martijn de Sterke, and Benjamin J. Eggleton,
    Opt. Express 18, 12708-12718 (2010)
35. Multi-channel in-band OSNR monitoring using Stimulated Brillouin Scattering
    Mark D. Pelusi, Amy Fu, and Benjamin J. Eggleton,
    Opt. Express 18, 9435-9446 (2010)
36. Nonlinear loss dynamics in a silicon slow-light photonic crystal waveguide
    Bill Corcoran, Christelle Monat, Dominik Pudo, Benjamin J. Eggleton, Thomas F. Krauss, David J. Moss, Liam O’Faolain, Mark Pelusi, and Thomas P. White,
    Optics Letters, Vol. 35, Issue 7, pp. 1073-1075 (2010)
37. Optical signal processing on a silicon chip at 640Gb/s using slow-light
    B. Corcoran, C. Monat, M. Pelusi, C. Grillet, T. P. White, L. O’Faolain, T. F. Krauss, B. J. Eggleton, and D. J. Moss,
    Opt. Express 18, 7770-7781 (2010)
38. Multi-Impairment Monitoring at 320 Gb/s Based on Cross-Phase Modulation Radio-Frequency Spectrum Analyzer
    Vo, T.D.; Pelusi, M.D.; Schroder, J.; Corcoran, B.; Eggleton, B.J.;
    Photonics Tech. Lett. 22, 6 (pg 428) (2010)
39. Investigation of phase matching for third-harmonic generation in silicon slow light photonic crystal waveguides using Fourier optics
    Christelle Monat, Christian Grillet, Bill Corcoran, David J. Moss, Benjamin J. Eggleton, Thomas P. White, Thomas F. Krauss,
    Opt. Express 18, 7, 2010
40. Slow Light Enhanced Nonlinear Optics in Silicon Photonic Crystal Waveguides
    Christelle Monat, Bill Corcoran, Dominik Pudo, Majid Ebnali-Heidari, Christian Grillet, Mark D. Pelusi, David J. Moss, Benjamin J. Eggleton, Thomas P. White, Liam O’Faolain, Thomas F. Krauss,
    J. Sel. Top. Quantum Electron., 16, 1, 2010
41. High-resolution optical sampling of 640 Gbit/s data using dispersion-engineered chalcogenide photonic wire
    Luan, F.; Erps, J.V.; Pelusi, M.D.; Magi, E.; Iredale, T.; Thienpont, H.; Eggleton, B.J.; ,
    Electronics Letters, vol.46, no.3, pp.231-232, Feb. 4 2010
42. High-resolution Optical Sampling of 640-Gb/s Data Using Four-Wave Mixing in Dispersion-Engineered Highly Nonlinear As _2 S _3 Planar Waveguides
    Van Erps, J.; Luan, F.; Pelusi, M. D.; Iredale, T.; Madden, S.; Choi, D.-Y.; Bulla, D. A.; Luther-Davies, B.; Thienpont, H.; Eggleton, B. J.,
    Lightwave Technology, Journal of , vol.28, no.2, pp.209-215, Jan.15, 2010
43. Error-free all-optical demultiplexing at 160Gb/s via FWM in a silicon nanowire
    F. Li, M. Pelusi, D-X. Xu, A. Densmore, R. Ma, S. Janz, and D.J. Moss,
    Optics Express, Vol. 18, Issue 4, pp. 3905-3910 (2010)
44. Simultaneous multi-impairment monitoring of 640 Gb/s signals using photonic chip based RF spectrum analyzer
    T. D. Vo, M. D. Pelusi, J. Schröder, F. Luan, S. J. Madden, D.-Y. Choi, D. A. P. Bulla, B. Luther-Davies, and B. J. Eggleton,
    Opt. Express 18, 3938-3945 (2010)
45. Wavelength Conversion of High-Speed Phase and Intensity Modulated Signals Using a Highly Nonlinear Chalcogenide Glass Chip
    Pelusi, M. D.; Luan, F.; Madden, S.; Choi, D.-Y.; Bulla, D. A.; Luther-Davies, B.; Eggleton, B. J.,
    Photonics Technology Letters, IEEE , vol.22, no.1, pp.3-5, Jan.1, 2010
46. Reconfigurable Optical Pulse Generator Employing a Fourier-Domain Programmable Optical Processor
    Clarke, A. M.; Williams, D. G.; Roelens, M. A. F.; Eggleton, B. J.,
    Lightwave Technology, Journal of , vol.28, no.1, pp.97-103, Jan.1, 2010
47. Supercontinuum generation in a high index doped silica glass spiral waveguide
    David Duchesne, Marco Peccianti, Michael R. E. Lamont, Marcello Ferrera, Luca Razzari, Francois Légaré, Roberto Morandotti, Sai Chu, Brent E. Little, and David J. Moss,
    Optics Express, Vol. 18, Issue 2, pp. 923-930 (2010)

2009 Publications

1. Repetition-rate-selective, wavelength-tunable mode-locked laser at up to 640 GHz
   Jochen Schröder, Trung D. Vo, and Benjamin J. Eggleton,
   Opt. Lett. 34, 3902-3904 (2009)
2. Photowritten high-Q cavities in two-dimensional chalcogenide glass photonic crystals
   Michael W. Lee, Christian Grillet, Snjezana Tomljenovic-Hanic, Eric C. Mägi, David J. Moss, Benjamin J. Eggleton, Xin Gai, Steve Madden, Duk-Yong Choi, Douglas A. P. Bulla, and Barry Luther-Davies,
   Optics Letters, Vol. 34, Iss. 23, pp. 3671–3673 (2009)
3. Instantaneous frequency measurement system using optical mixing in highly nonlinear fiber
   Lam A. Bui, Mark D. Pelusi, Trung D. Vo, Niusha Sarkhosh, Hossein Emami, Benjamin J. Eggleton, and Arnan Mitchell,
   Opt. Express 17, 22983-22991 (2009)
4. Efficient coupling into slow light photonic crystal waveguide without transition region: role of evanescent modes
   C. Martijn de Sterke, K.B. Dossou, T.P. White, L.C. Botten, and R.C. McPhedran,
   Optics Express 17, 17338-17343 (2009)
5. Quasi-Bloch oscillations in curved coupled optical waveguides
   A. Joushaghani, R. Iyer, J.K.S. Poon, J.S. Aitchison, C.M. de Sterke, J. Wan, and M.M. Dignam,
   Phys. Rev. Lett 103, 143903:1-4 (2009)
6. Optimization of photonic bandgap fiber long period grating refractive-index sensors
   Qing Shi and Boris T. Kuhlmey,
   Opt. Commun., doi:10.1016/j.optcom.2009.09.030, (2009)
7. Optimization of the soliton self-frequency shift in a tapered photonic crystal fiber
   A. C. Judge, O. Bang, B. J. Eggleton, B. T. Kuhlmey, E. C. Mägi, R. Pant, and C. Martijn de Sterke,
   J. Opt. Soc. Am. B 26, 2064-2071 (2009)
8. Modelling of photonic crystal fiber based on layered inclusions
   Thomas Grujic, Boris T. Kuhlmey, C. Martijn de Sterke, and Chris G. Poulton,
   J. Opt. Soc. Am. B 26, 1852-1861 (2009)
9. Impedance of square and triangular lattice photonic crystals
   Felix J. Lawrence, Lindsay C. Botten, Kokou B. Dossou, C. Martijn de Sterke, and R. C. McPhedran,
   Phys. Rev. A 80, 023826 (2009), DOI:10.1103/PhysRevA.80.023826
10. Cloaking by Plasmonic Resonance among Systems of Particles: Cooperation or Combat?
    McPhedran, R.C., Nicorovici, N.A., Botten, L.C., and Milton, G.W.,
    Comptes Rendus de l’Academie des Sciences Physique, 10, 391-399 (2009)
11. Gratings and their quasistatic equivalents for high optical absorptance
    McPhedran, R.C., Chen, P.Y., Bonod, N. and Popov, E.,
    Phys. Rev. A, 79, 053850 (2009)
12. Wave scattering by platonic grating stacks
    Movchan, N.V., McPhedran, R.C., Movchan, A.B., and Poulton, C.G.,
    Proceedings of the Royal Society A, 465, 3383-3400 (2009)
13. Modes of shallow photonic crystal waveguides: semi-analytic treatment
    S. Mahmoodian, C. G. Poulton, K. B. Dossou, R. C. McPhedran, L. C. Botten, and C. M. de Sterke,
    Optics Express, 17, 22 (2009)
14. Coated photonic bandgap fibres for low-index sensing applications: cutoff analysis
    Boris T. Kuhlmey, Stéphane Coen, and Sahand Mahmoodian,
    Optics Express, Vol. 17, Issue 18, pp. 16306-16321 (2009)
15. Modes of symmetric composite defects in two-dimensional photonic crystals
    K. B. Dossou, C. G. Poulton, L. C. Botten, S. Mahmoodian, R. C. McPhedranand C. Martijn de Sterke,
    Phys. Rev. A 80, 013826 (2009)
16. A proposal for enhancing four-wave mixing in slow light engineered photonic crystal waveguides and its application to optical regeneration
    M. Ebnali-Heidari, C. Monat, C. Grillet, and M. K Moravvej-Farshi,
    Opt. Express 17, 18340-18353 (2009)
17. Characterization of picosecond pulse nonlinear propagation in chalcogenide As2S3 fiber
    C. Xiong, E. Magi, F. Luan, A. Tuniz, S. Dekker, J. S. Sanghera, L. B. Shaw, I. D. Aggarwal, and B. J. Eggleton,
    Appl. Opt. 48, 5467-5474 (2009)
18. Investigation of slow light enhanced nonlinear transmission for all-optical regeneration in silicon photonic crystal waveguides at 10 Gbit/s
    D. Pudo, B. Corcoran, C. Monat, M. Pelusi, D.J. Moss, B.J. Eggleton, T.P. White, L. O’Faolain, T.F. Krauss,
    Photonics and Nanostructures: Fundementals and Applications, doi:10.1016/j.photonics.2009.08.002, (2009)
19. Comparison of the sensitivity of air and dielectric modes in photonic crystal slab sensors
    Snjezana Tomljenovic-Hanic, Adel Rahmani, M. J. Steel, and C. Martijn de Sterke,
    Optics Express Vol. 17, No. 17, pp. 14552–14557 (2009)
20. Pulse train generation by soliton fission in highly nonlinear chalcogenide (As2S3) waveguide Bragg grating
    Baker, N.J.; Roelens, M.A.F.; Madden, S.; Luther-Davies, B.; De Sterke, C.M.; Eggleton, B.J.,
    Electronics Letters , vol.45, no.15, pp.799-800, July 16 2009
21. Fluid-Filled Solid-Core Photonic Bandgap Fibers
    Kuhlmey, B.T.; Eggleton, B.J.; Wu, D.K.C.,
    Lightwave Technology, Journal of , vol.27, no.11, pp.1617-1630, June1, 2009
22. Temperature stabilization of optofluidic photonic crystal cavities
    Christian Karnutsch, Cameron L. C. Smith, Alexandra Graham, Snjezana Tomljenovic-Hanic, Ross McPhedran, Benjamin J. Eggleton, Liam O’Faolain, Thomas F. Krauss, Sanshui Xiao, and N. Asger Mortensen,
    Appl. Phys. Lett. 94, 231114 (2009), DOI:10.1063/1.3152998
23. Highly stable ultrabroadband mid-IR optical parametric chirped-pulse amplifier optimized for superfluorescence suppression
    J. Moses, S.-W. Huang, K.-H. Hong, O. D. Mücke, E. L. Falcão-Filho, A. Benedick, F. Ö. Ilday, A. Dergachev, J. A. Bolger, B. J. Eggleton, and F. X. Kärtner,
    Opt. Lett. 34, 1639-1641 (2009)
24. Terahertz bandwidth RF spectrum analysis of femtosecond pulses using a chalcogenide chip
    M. D. Pelusi, T. D. Vo, F. Luan, S. J. Madden, D.-Y. Choi, D. A. P. Bulla, B. Luther-Davies, and B. J. Eggleton,
    Opt. Express 17, 9314-9322 (2009)
25. Ultrasensitive UV-tunable grating in all-solid photonic bandgap fibers
    J. Lázaro, B. Kuhlmey, J. Knight, J. Lopez-Higuera, and B. Eggleton,
    Optics Communications, vol. 282, Jun. 2009, pp. 2358-2361.
26. Efficient self-phase modulation in low loss, high index doped silica glass integrated waveguides
    D.Duchesne, M.Ferrera, L.Razzari, R.Morandotti, S.Chu, B.Little, and D. J. Moss,
    Optics Express 17 1865 (2009).
27. Two-Photon Detection in a GaAs / AlGaAs Multiple Quantum Well Modulator
    D. Duchesne, L. Razzari, L. Halloran, R. Morandotti, A. J. Springthorpe, D. N. Christodoulides, and D. J. Moss,
    Optics Express 17 (7) 5298 (2009).
28. Single and coupled degenerate defect modes in two-dimensional photonic crystal band gaps
    S. Mahmoodian, R. C. McPhedran, and C. Martijn de Sterke K. B. Dossou, C. G. Poulton, and L. C. Botten,
    Physical Review A, 79, 013814, 2009
29. Flexible and Reconfigurable Time-Domain Demultiplexing of Optical Signals at 160 Gb/s
    Roelens, M. A. F.; Bolger, J. A.; Williams, D.; Frisken, S. J.; Baxter, G. W.; Clarke, A. M.; Eggleton, B. J.,
    Photonics Technology Letters, IEEE , vol.21, no.10, pp.618-620, May 15, 2009
30. Reconfigurable photonic crystal circuits
    C. Grillet, C. Monat, C.L. Smith, M.W. Lee, S. Tomljenovic-Hanic, C. Karnutsch, B.J. Eggleton,
    Laser & Photonics Reviews, Published Online: 16 Mar 2009.
31. Flexible design of ultrahigh-Q cavities in diamond-based photonic crystal slabs
    S. Tomljenovic-Hanic, A.D. Greentree, C.M. de Sterke, and S. Prawer,
    Optics Express 17, 6465-6475 (2009).
32. Green light emission in silicon through slow-light enhanced third-harmonic generation in photonic-crystal waveguides
    B. Corcoran, C. Monat, C. Grillet, D. J. Moss, B. J. Eggleton, T. P. White, L. O’Faolain & T. F. Krauss,
    Nature Photonics, doi:10.1038/nphoton.2009.28 (2009)
33. All-optical self-switching in optimized phase-shifted fiber Bragg grating
    Irina V. Kabakova, Bill Corcoran, Jeremy A. Bolger, Martijn de Sterke, and Benjamin J. Eggleton,
    Opt. Express 17, 5083-5088 (2009)
34. Dispersion engineered As2S3 planar waveguides for broadband four-wave mixing based wavelength conversion of 40 Gb/s signals
    Feng Luan, Mark D. Pelusi, Michael R. E. Lamont, Duk-Yong Choi, Steve Madden, Barry Luther-Davies, and Benjamin J. Eggleton,
    Opt. Express 17, 3514-3520 (2009)
35. Direct detection of optical rogue wave energy statistics in supercontinuum generation
    Lafargue, C.; Bolger, J.; Genty, G.; Dias, F.; Dudley, J.M.; Eggleton, B.J.,
    Electronics Letters , vol.45, no.4, pp.217-219, February 12 (2009)
36. Photonic-chip-based radio-frequency spectrum analyser with terahertz bandwidth
    Mark Pelusi, Feng Luan, Trung D. Vo, Michael R. E. Lamont, Steven J. Madden, Douglas A. Bulla, Duk-Yong Choi, Barry Luther-Davies & Benjamin J. Eggleton,
    Nature Photonics, doi:10.1038/nphoton.2009.001 (2009)
37. Slow light enhancement of nonlinear effects in silicon engineered photonic crystal waveguides
    Christelle Monat, Bill Corcoran, Majid Ebnali-Heidari, Christian Grillet, Benjamin J. Eggleton, Thomas P. White, Liam O’Faolain, and Thomas F. Krauss,
    Opt. Express 17, 2944-2953 (2009)
38. Breakthrough switching speed with an all-optical chalcogenide glass chip: 640 Gbit/s demultiplexing
    Michael Galili, Jing Xu, Hans C. Mulvad, Leif K. Oxenløwe, Anders T. Clausen, Palle Jeppesen, Barry Luther-Davis, Steve Madden, Andrei Rode, Duk-Yong Choi, Mark Pelusi, Feng Luan, and Benjamin J. Eggleton,
    Opt. Express 17, 2182-2187 (2009)
39. Ultrasensitive photonic crystal fiber refractive index sensor
    Darran K. C. Wu, Boris T. Kuhlmey, and Benjamin J. Eggleton,
    Opt. Lett. 34, 322-324 (2009)
40. Fundamental limit for 2D passive devices
    R. Piestun and C. Martijn de Sterke,
    Optics Letters 34, 779-781, 2009
41. Modal method for conical diffraction by slanted lamellar gratings
    S. Campbell, L.C. Botten, R.C. McPhedran, C. Martijn de Sterke,
    JOSA A, 26, 938-948, 2009
42. Dispersion engineering of slow light photonic crystal waveguides using microfluidic infiltration
    M. Ebnali-Heidari, C. Grillet, C. Monat, and B. J. Eggleton,
    Opt. Express 17, 1628-1635 (2009)

2008 Publications

1. Antireflection coatings for two-dimensional photonic crystals using a rigorous impedance definition
   Felix J. Lawrence, Lindsay C. Botten, Kokou B. Dossou, and C. Martijn de Sterke,
   Appl. Phys. Lett. 93, 121114, 2008
2. Reflection across plant cell boundaries in confocal laser scanning microscopy
   D.Y.T. Liu, B.T. Kuhlmey, P.M.C. Smith, D.A. Day, C.R. Faulkner, R.L. Overall,
   JOURNAL OF MICROSCOPY-OXFORD, vol. 231, Aug. 2008, pp. 349-357.
3. Metallic mode confinement in microstructured fibres
   J. Hou, D. Bird, A. George, S. Maier, B.T. Kuhlmey, and J.C. Knight,
   OPTICS EXPRESS, vol. 16, Apr. 2008, pp. 5983-5990.
4. Efficient slow light coupling in a photonic crystal waveguide without transition region
   T.P. White, L.C. Botten, C. Martijn de Sterke, K. Dossou, R.C. McPhedran,
   Optics Letters, 33, 2644-2646, 2008
5. Trapping of gap solitons in random one-dimensional gratings
   E.N. Tsoy, C. Martijn de Sterke, F.Kh Abdullaev,
   Phys. Rev. A, 78 031803:1-4, 2008
6. A modal method for classical diffraction by slanted lamellar gratings
   S. Campbell, L.C. Botten, R.C. McPhedran, C. Martijn de Sterke,
   JOSA A, 25, 2415-2426, 2008
7. Multi-order dispersion engineering for optical four-wave mixing
   Micahel R.E. Lamont, Boris T. Kuhlemy, C. Martijn de Sterke,
   Optics Express 16, 7551-7563, 2008
8. Defect modes in two-dimensional photonic crystals: Part 1 – isolated defect
   K.B. Dossou, L.C. Botten, R.C. McPhedran, C.G. Poulton, A.A. Asatryan, C.M. de Sterke,
   Phys. Rev. A 77, 063839:0-18 2008
9. Modulation control and spectral shaping of optical fiber supercontinuum generation in the picosecond regime
   G. Genty, J. M. Dudley and B. J. Eggleton,
   Applied Physics B: Lasers and Optics, DOI 10.1007/s00340-008-3274-1
10. Net-gain from a parametric amplifier on a chalcogenide optical chip
    M. R. Lamont, B. Luther-Davies, D. Choi, S. Madden, X. Gai, and B. J. Eggleton,
    Opt. Express 16, 20374-20381 (2008)
11. Planar microfluidic chamber for generation of stable and steep chemoattractant gradients
    Fok S, Domachuk P, Rosengarten G, Krause N, Braet F, Eggleton BJ , Soon LL,
    BIOPHYSICAL JOURNAL, Volume: 95, Issue: 3 Pages: 1523-1530 AUG 1 2008
12. Low-power continuous-wave nonlinear optics in doped silica glass integrated waveguide structures
    M. Ferrera, L. Razzari, D. Duchesne, R. Morandotti, Z. Yang, M. Liscidini, J. E. Sipe, S. Chu, B. E. Little & D. J. Moss,
    Nature Photonics, doi:10.1038/nphoton.2008.228
13. Birefringent all-solid hybrid microstructured fiber
    R. Goto, S. D. Jackson, S. Fleming, B. T. Kuhlmey, B. J. Eggleton, and K. Himeno,
    Opt. Express 16, 18752-18763 (2008)
14. Two-photon absorption effects on Raman gain in single mode As2Se3 chalcogenide glass fiber
    A. Tuniz, G. Brawley, D. J. Moss, and B. J. Eggleton,
    Opt. Express 16, 18524-18534 (2008)
15. High-Q microfluidic cavities in silicon-based two-dimensional photonic crystal structures
    U. Bog, C. L. Smith, M. W. Lee, S. Tomljenovic-Hanic, C. Grillet, C. Monat, L. O’Faolain, C. Karnutsch, T. F. Krauss, R. C. McPhedran, and B. J. Eggleton,
    Opt. Lett. 33, 2206-2208 (2008)
16. Reconfigurable microfluidic photonic crystal slab cavities
    C. L. Smith, U. Bog, S. Tomljenovic-Hanic, M. W. Lee, D. K. Wu, L. O’Faolain, C. Monat, C. Grillet, T. F. Krauss, C. Karnutsch, R. C. McPhedran, and B. J. Eggleton,
    Opt. Express 16, 15887-15896 (2008)
17. Supercontinuum generation in dispersion engineered highly nonlinear (γ = 10 /W/m) As2S3 chalcogenide planar waveguide
    M. R. Lamont, B. Luther-Davies, D. Choi, S. Madden, and B. J. Eggleton,
    Opt. Express 16, 14938-14944 (2008)
18. Experimental reconstruction of bands in solid core photonic bandgap fibres using acoustic gratings
    B. T. Kuhlmey, F. Luan, L. Fu, D. Yeom, B. J. Eggleton, A. Wang, and J. C. Knight,
    Opt. Express 16, 13845-13856 (2008)
19. Characterizing photonic crystal waveguides with an expanded k-space evanescent coupling technique
    M. W. Lee, C. Grillet, C. G. Poulton, C. Monat, C. L. Smith, E. Mägi, D. Freeman, S. Madden, B. Luther-Davies, and B. J. Eggleton,
    Opt. Express 16, 13800-13808 (2008)
20. Nonlinear switching using long-period gratings in As2Se3 chalcogenide fiber
    H. C. Nguyen, D. Yeom, E. C. Mägi, B. T. Kuhlmey, C. M. de Sterke, and B. J. Eggleton,
    J. Opt. Soc. Am. B 25, 1393-1401 (2008)
21. High bit rate all-optical signal processing in a fiber photonic wire
    M. D. Pelusi, F. Luan, E. Magi, M. R. Lamont, D. J. Moss, B. J. Eggleton, J. S. Sanghera, L. B. Shaw, and I. D. Aggarwal,
    Opt. Express 16, 11506-11512 (2008)
22. 160-Gb/s Optical Time-Division Demultiplexing Using a Mach–Zehnder Modulator in a Fiber Loop
    M Pelusi,
    IEEE Photonics Technology Letters, vol.20, no.12, 2008
23. Error-free 640 Gbit/s demultiplexing using a chalcogenide planar waveguide chip
    Jing Xu, Michael Galili, Hans C.H. Mulvad, Leif K. Oxenøwe, Anders T. Clausen, Palle Jeppesen, Barry Luther-Davis, Steve Madden, Andrei Rode, Duk-Yong Choi, Mark Pelusi, Feng Luan and Benjamin J. Eggleton,
    OECC/ACOFT Post-Deadline Papers Technical Digest, 2008
24. Strong photoinduced Bragg gratings in arsenic selenide optical fibre using transverse holographic method
    Brawley, G.A.; Taeed, V.G.; Bolger, J.A.; Sanghera, J.S.; Aggarwal, I.; Eggleton, B.J.,
    Electronics Letters, vol.44, no.14, pp.846-847, July 3 2008
25. Oscillations of the soliton parameters in nonlinear interference phenomena
    Tsoy, EN; de Sterke, CM,
    PHYSICS LETTERS A, 372, 11, 1856-1861, 2008
26. Multi-wavelength synchronous pulse burst generation with a wavelength selective switch
    M. A. Roelens, J. A. Bolger, D. Williams, and B. J. Eggleton,
    Opt. Express 16, 10152-10157 (2008)
27. Fiber taper coupling to chalcogenide microsphere modes
    Christian Grillet, Shu Ning Bian, Eric C. Magi, and Benjamin J. Eggleton,
    Appl. Phys. Lett. 92, 171109 (2008)
28. Observation of polychromatic gap solitons
    A. A. Sukhorukov, D. N. Neshev, A. Dreischuh, W. Krolikowski, J. Bolger, B. J. Eggleton, L. Bui, A. Mitchell, and Y. S. Kivshar,
    Opt. Express 16, 5991-5996 (2008)
29. Low-threshold supercontinuum generation in highly nonlinear chalcogenide nanowires
    D. -I. Yeom, E. C. Mägi, M. R. E. Lamont, M. A. F. Roelens, L. Fu, and B. J. Eggleton,
    Opt. Lett. 33, 660-662 (2008)
30. All-optical regeneration based on a nonlinear long period grating
    Thomas Grujic, Hong C. Nguyen, Michael R.E. Lamont, C. Martijn de Sterke and Benjamin J. Eggleton,
    Opt. Commun. 281, 1280-1285 (2008)
31. Nonlinear long-period gratings in As2Se3 chalcogenide fiber for all-optical switching
    H. C. Nguyen, D. I. Yeom, E. C. Mägi, L. B. Fu, B. T. Kuhlmey, C. M. de Sterke, and B. J. Eggleton,
    Appl. Phys. Lett. 92, 101127 (2008)
32. Dispersion Trimming in a Reconfigurable Wavelength Selective Switch
    Roelens, M. A. F.; Frisken, S.; Bolger, J. A.; Abakoumov, D.; Baxter, G.; Poole, S.; Eggleton, B. J.,
    Lightwave Technology, Journal of , vol.26, no.1, pp.73-78, Jan.1, 2008
33. Harnessing and control of optical rogue waves in supercontinuum generation
    J. M. Dudley, G. Genty, and B. J. Eggleton,
    Opt. Express 16, 3644-3651 (2008)
34. Local tuning of photonic crystal cavities using chalcogenide glasses
    Andrei Faraon, Dirk Englund, Douglas Bulla, Barry Luther-Davies, Benjamin J. Eggleton, Nick Stoltz, Pierre Petroff, and Jelena Vuckovic,
    Appl. Phys. Lett. 92, 043123 (2008)
35. Highly nonlinear chalcogenide fibres for all-optical signal processing
    Libin Fu, Vahid G. Ta’eed, Eric C. Mägi, Ian C. M. Littler, Mark D. Pelusi, Michael R. E. Lamont, Alexander Fuerbach, Hong C. Nguyen, Dong-Il Yeom and Benjamin J. Eggleton,
    Optical and Quantum Electronics, DOI 10.1007/s11082-007-9180-7, 2008
36. Broadband all-optical wavelength conversion of 40 Gbit/s signals in nonlinearity enhanced tapered chalcogenide fibre
    Fu, L.B.; Pelusi, M.D.; Magi, E.C.; Taeed, V.G.; Eggleton, B.J.,
    Electronics Letters vol.44, no.1, pp.44-46, January 3 2008

2007 Publications

1. Fresnel formulation for multi-element lamellar diffraction gratings in conical mountings
   S. Campbell, L.C. Botten, C. Martijn de Sterke, R.C. McPhedran,
   Waves in Random and Complex Media, 17 (4), 455-475 (2007)
2. Selective coating of holes in microstructured optical fiber and its application to in-fiber absorptive polarizer
   X. Zhang, R. Wang, F. Cox, B.T. Kuhlmey and M. C. J. Large,
   Opt. Express 15, 16270-16278 (2007)
3. Broadband Mach-Zehnder interferometer design using microstructured optical fibers for multi-channel DPSK demodulation
   Y.K. Lize, B. T. Kuhlmey and R. Kashyap,
   Opt. Fiber Technol. 13, 85-90 (2007)
4. Dispersionless slow light with 5-pulse-width delay in fibre Bragg grating
   Mok, J.T.; Ibsen, M.; Martijn De Sterke, C.; Eggleton, B.J.,
   Electronics Letters , vol.43, no.25, pp.1418-1419, Dec. 6 2007
5. High-Q cavities in multilayer photonic crystal slab
   S. Tomljenovic-Hanic, C.M. de Sterke, M.J. Steel, B.J. Eggleton, Y. Tanaka and S. Noda,
   Optics Express 15, 17248-17253 (2007)
6. Chalcogenide Glass Photonic Crystals: Photonics and Nanostructures – Fundamentals and Applications
   Darren Freeman, Christian Grillet, Michael W. Lee, Cameron L.C. Smith, Yinlan Ruan, Andrei Rode, Maryla Krolikowska, Snjezana Tomljenovic-Hanic, C. Martijn de Sterke, Michael J. Steel, Barry Luther-Davies, Steve Madden, David J. Moss, Yong-Hee Lee and Benjamin J. Eggleton,
   In Press – Available online (Science Direct) 19 November 2007.
7. Optofluidics: a novel generation of reconfigurable and adaptive compact architectures
   C. Monat, P. Domachuk, C. Grillet, M. Collins, B. J. Eggleton, M. Cronin-Golomb, S. Mutzenich, T. Mahmud, G. Rosengarten, A. Mitchell,
   Microfluidics and Nanofluidics, Publisher Springer Berlin / Heidelberg (2007).
8. Broadband wavelength conversion at 40 Gb/s using long serpentine As2S3 planar waveguides
   V. Ta’eed, M. D. Pelusi, B. J. Eggleton, D. -Y. Choi, S. madden, D. Bulla, and B. Luther-Davies,
   Opt. Express 15, 15047-15052 (2007)
9. Long, low loss etched As2S3 chalcogenide waveguides for all-optical signal regeneration
   S. J. Madden, D. -Y. Choi, D. A. Bulla, A. V. Rode, B. Luther-Davies, V. G.Ta’eed, M. D. Pelusi, and B. J. Eggleton,
   Opt. Express 15, 14414-14421 (2007)
10. Theoretical analysis of the self-frequency shift near zero-dispersion points: Soliton spectral tunneling
    Eduard N. Tsoy and C. Martijn de Sterke,
    Phys. Rev. A 76, 043804 (2007).
11. Tunable enhancement of a soliton spectrum using an acoustic long-period grating
    J. A. Bolger, F. Luan, D. -I. Yeom, E. N. Tsoy, C. M. de Sterke, and B. J. Eggleton,
    Opt. Express 15, 13457-13462 (2007)
12. Chalcogenide Glass, Advanced for All-Optical Processing
    Benjamin J. Eggleton, Vahid G. Ta’eed and Barry Luther-Davies,
    Photonics Spectra, Sept 2007
13. Nonlinear Spectral-Spatial Control and Localization of Supercontinuum Radiation
    Dragomir N. Neshev, Andrey A. Sukhorukov, Alexander Dreischuh, Robert Fischer, Sangwoo Ha, Jeremy Bolger, Lam Bui, Wieslaw Krolikowski, Benjamin J. Eggleton, Arnan Mitchell, Michael W. Austin, and Yuri S. Kivshar,
    Phys. Rev. Lett. 99, 123901 (2007)
14. Ultra-High Nonlinear As2S3 Planar Waveguide for 160-Gb/s Optical Time-Division Demultiplexing by Four-Wave Mixing
    Pelusi, M. D.; Ta’eed, V. G.; Lamont, M. R. E.; Madden, S.; Choi, D.-Y.; Luther-Davies, B.; Eggleton, B. J.,
    Photonics Technology Letters, IEEE , vol.19, no.19, pp.1496-1498, Oct.1, 2007
15. Microfluidic photonic crystal double heterostructures
    Cameron L. C. Smith, Darran K. C. Wu, Michael W. Lee, Christelle Monat, Snjezana Tomljenovic-Hanic, Christian Grillet, Benjamin J. Eggleton, Darren Freeman, Yinlan Ruan, Steve Madden, Barry Luther-Davies, Harald Giessen and Yong-Hee Lee,
    Applied Physics Letters, Volume 91, Issue 12, 121103, 17 September 2007
16. Error-free wavelength conversion via cross-phase modulation in 5cm of As2S3 chalcogenide glass rib waveguide
    Lamont, M.R.E.; Ta’eed, V.G.; Roelens, M.A.F.; Moss, D.J.; Eggleton, B.J.; Choi, D.-Y.; Madden, S.; Luther-Davies, B.,
    Electronics Letters , vol.43, no.17, pp.945-947, August 16 2007
17. Enhanced Kerr nonlinearity in sub-wavelength diameter As2Se3 chalcogenide fiber tapers
    E. C. Mägi, L. B. Fu, H. C. Nguyen, M. R. Lamont, D. I. Yeom, and B. J. Eggleton,
    Opt. Express 15, 10324-10329 (2007)
18. Optofluidic sensing and actuation with optical tweezers
    P Domachuk, F G Omenetto, B J Eggleton and M Cronin-Golomb,
    J. Opt. A: Pure Appl. Opt. vol. 9 S129-S133 (2007).
19. Ultrafast all-optical chalcogenide glass photonic circuits
    V. Ta’eed, N. J. Baker, L. Fu, K. Finsterbusch, M. R. E. Lamont, D. J. Moss, H. C. Nguyen, B. J. Eggleton, D. -Y. Choi, S. Madden, and B. Luther-Davies,
    Opt. Express 15, 9205-9221 (2007)
20. Dispersion engineering of highly nonlinear As2S3 waveguides for parametric gain and wavelength conversion
    M. R. Lamont, C. M. de Sterke, and B. J. Eggleton,
    Opt. Express 15, 9458-9463 (2007)
21. Characterisation of chalcogenide 2D photonic crystal waveguides and nanocavities using silica fibre nanowires
    C. Smith, C. Grillet, S. Tomljenovic-Hanic, E.C. Magi, D. Moss, B.J. Eggleton, D. Freeman, S. Madden and B. Luther-Davies,
    Physica B: Condensed Matter, Volume 394, Issue 2
22. Integrated shadow mask for sampled Bragg gratings in chalcogenide (As2S3) planar waveguides
    D. -Y. Choi, S. Madden, A. Rode, R. Wang, B. Luther-Davies, N. J. Baker, and B. J. Eggleton,
    Opt. Express 15, 7708-7712 (2007)
23. Tunable spectral enhancement of fiber supercontinuum
    D. -I. Yeom, J. A. Bolger, G. D. Marshall, D. R. Austin, B. T. Kuhlmey, M. J. Withford, C. Martijn de Sterke, and B. J. Eggleton,
    Opt. Lett. 32, 1644-1646 (2007)
24. Higher-order mode grating devices in As2S3 chalcogenide glass rib waveguides
    K. Finsterbusch, N. J. Baker, V. G. Ta’eed, B. J. Eggleton, D. -Y. Choi, S. Madden, and B. Luther-Davies,
    J. Opt. Soc. Am. B 24, 1283-1290 (2007)
25. Thinnest optical waveguide: experimental test
    M. Sumetsky, Y. Dulashko, P. Domachuk, and B. J. Eggleton,
    Opt. Lett. 32, 754-756 (2007)
26. Tunable acoustic gratings in solid-core photonic bandgap fiber
    D. -I. Yeom, P. Steinvurzel, B. J. Eggleton, S. D. Lim, and B. Y. Kim,
    Opt. Express 15, 3513-3518 (2007)
27. Exact dynamic localization in curved AlGaAs optical waveguide arrays
    R. Iyer, J. S. Aitchison, J. Wan, M. M. Dignam, and C. M. de Sterke,
    Opt. Express 15, 3212-3223 (2007)
28. Optimisation of superimposed chirped fibre Bragg gratings for the generation of ultra-high speed optical pulse bursts
    J.A. Bolger, I.C.M. Littler and B.J. Eggleton,
    Optics Communications, Volume 271, Issue 2, 15 March 2007, Pages 524-531
29. Nanowire coupling to photonic crystal nanocavities for single photon sources
    C. Grillet, C. Monat, C. L. Smith, B. J. Eggleton, D. J. Moss, S. Frédérick, D. Dalacu, P. J. Poole, J. Lapointe, G. Aers, and R. L. Williams,
    Opt. Express 15, 1267-1276 (2007)
30. Photosensitive post tuning of chalcogenide photonic crystal waveguides
    M. W. Lee, C. Grillet, C. L. C. Smith, D. J. Moss, B. J. Eggleton, D. Freeman, B. Luther-Davies, S. Madden, A. Rode, Y. Ruan, and Y. -h. Lee,
    Opt. Express 15, 1277-1285 (2007)
31. Photonic crystal fibres with resonant coatings
    Kuhlmey BT, McPhedran RC,
    PHYSICA B-CONDENSED MATTER 394 (2): 155-158 MAY 15 2007
32. Opaque perfect lenses
    Milton GW, Nicorovici NAP, McPhedran RC,
    PHYSICA B-CONDENSED MATTER 394 (2): 171-175 MAY 15 2007
33. Optical resonances of cylinder and sphere clusters in the quasistatic limit
    Field L, Nicorovici NA, McPhedran RC,
    PHYSICA B-CONDENSED MATTER 394 (2): 193-196 MAY 15 2007
34. Tailoring the enhanced frequency shift in two-dimensional photonic clusters
    Asatryan AA, Botten LC, Nicorovici NA, et al.,
    PHYSICA B-CONDENSED MATTER 394 (2): 213-216 MAY 15 2007
35. Estimates for localised transverse electric modes in multi-structured crystal fibres
    Movchan NV, Guenneau S, Movchan AB, et al.,
    PHYSICA B-CONDENSED MATTER 394 (2): 281-284 MAY 15 2007
36. Generalisation of the transfer matrix formulation of the theory of electron and photon conductance
    Botten LC, Asatryan AA, Nicorovici NA, et al.,
    PHYSICA B-CONDENSED MATTER 394 (2): 320-324 MAY 15 2007
37. Exact modelling of generalised defect modes in photonic crystal structures
    Dossou KB, Botten LC, Wilcox S, et al.,
    PHYSICA B-CONDENSED MATTER 394 (2): 330-334 MAY 15 2007
38. Quasistatic cloaking of two-dimensional polarizable discrete systems by anomalous resonance
    Nicorovici NAP, Milton GW, McPhedran RC, et al.,
    OPTICS EXPRESS 15 (10): 6314-6323 MAY 14 2007
39. Gap-edge asymptotics of defect modes in two-dimensional photonic crystals
    Dossou KB, McPhedran RC, Botten LC, et al.,
    OPTICS EXPRESS 15 (8): 4753-4762 APR 16 2007
40. Asymptotic estimates for localized electromagnetic modes in doubly periodic structures with defects
    Movchan AB, Movchan NV, Guenneau S, et al.,
    PROCEEDINGS OF THE ROYAL SOCIETY A-MATHEMATICAL PHYSICAL AND ENGINEERING SCIENCES 463 (2080): 1045-1067 APR 8 2007
41. High-Q cavities in photosensitive photonic crystals
    S. Tomljenovic-Hanic, M. J. Steel, C. M. de Sterke and D. J. Moss,
    Optics Letters, 32, pp 542-544 (2007)
42. Integrated optofluidics: A new river of light
    C. Monat, P. Domachuk, and B. J. Eggleton,
    Nature Photonics 1, 106 – 114 (2007)

2006 Publications

1. Narrowband supercontinuum control using phase shaping
   D. R. Austin, J. A. Bolger, C. M. de Sterke, B. J. Eggleton, and T. G. Brown,
   Opt.Express 14, 13142-13150 (2006)
2. Efficient couplers for photonic crystal waveguides
   K. Dossou, L.C. Botten, Shigang Chen, J. Brnovic, R.C. McPhedran, and C. Martijn de Sterke,
   Optics Communications 265, 207-219 (2006)
3. Very low reflection, wide-angle coupling into rod-type photonic crystals
   L.C. Botten, T.P. White, C. Martijn de Sterke, and R.C. McPhedran,
   Phys. Rev. E 74, 026603:1-10 (2006)
4. Dynamics of ultrashort pulses near zero dispersion wavelength
   Eduard N. Tsoy and C. Martijn de Sterke,
   J. Opt. Soc. Am. B 23 2425-2433 (2006)
5. Spontaneous emission and photon dynamics in coupled microcavities
   D.P. Fussell, M.M. Dignam, M.J. Steel, C. Martijn de Sterke, and R.C. McPhedran,
   Phys. Rev. A 74, 043806:1-12 (2006)
6. Frontiers in microphotonics: tunability and all-optical control
   C. Monat, C. Grillet, P. Domachuk, C. Smith, E. Magi, D. J. Moss, H. C. Nguyen, S. Tomljenovic-Hanic, M. Cronin-Golomb, B. J. Eggleton, D. Freeman, S. Madden, B. Luther-Davies, S. Mutzenich, G. Rosengarten, and A. Mitchell,
   Laser Physics Letters, Published Online: 7 Dec 2006
7. Multipole analysis of Photonic Crystal Fibers with coated inclusions
   B. T. Kuhlmey, K. Pathmanandavel and R. C. McPhedran,
   Optics Express 14 (22) pp.10851-10864 (2006)
8. Delay-tunable gap-soliton-based slow-light system
   J. T. Mok, C. M. de Sterke, and B. J. Eggleton,
   Opt. Express 14, 11987-11996 (2006)
9. Dispersive wave blue-shift in supercontinuum generation
   D. R. Austin, C. M. de Sterke, B. J. Eggleton, and T. G. Brown,
   Opt. Express 14, 11997-12007 (2006)
10. Manipulation of spontaneous emission in a tapered photonic crystal fibre
    S. J. Myers, D. P. Fussell, J. M. Dawes, E. Mägi, R. C. McPhedran, B. J. Eggleton, and C. M. de Sterke,
    Opt. Express 14, 12439-12444 (2006)
11. Design of high-Q cavities in photonic crystal slab heterostructures by air-holes infiltration
    S. Tomljenovic-Hanic, C. M. de Sterke, and M. J. Steel,
    Opt. Express 14, 12451-12456 (2006)
12. All optical wavelength conversion via cross phase modulation in chalcogenide glass rib waveguides
    V. G. Ta’eed, M. R. E. Lamont, D. J. Moss, B. J. Eggleton, D. -Y. Choi, S. Madden, and B. Luther-Davies,
    Opt. Express 14, 11242-11247 (2006)
13. Polychromatic nonlinear surface modes generated by supercontinuum light
    A. A. Sukhorukov, D. N. Neshev, A. Dreischuh, R. Fischer, S. Ha, W. Krolikowski, J. Bolger, A. Mitchell, B. J. Eggleton, and Y. S. Kivshar,
    Opt. Express 14, 11265-11270 (2006)
14. 2R optical regenerator in As2Se3 chalcogenide fiber characterized by a frequency-resolved optical gating analysis
    M. R. E. Lamont, L. Fu, M. Rochette, D. J. Moss, and B. J. Eggleton,
    Appl. Opt. 45, 7904-7907 (2006)
15. Error free all optical wavelength conversion in highly nonlinear As-Se chalcogenide glass fiber
    V. G. Ta’eed, L. Fu, M. Pelusi, M. Rochette, I. C. Littler, D. J. Moss, and B. J. Eggleton,
    Opt. Express 14, 10371-10376 (2006)
16. Dispersionless slow light using gap solitons
    Joe T. Mok, C. Martijn de Sterke, Ian C. M. Littler and Benjamin J. Eggleton,
    Nature Physics, Published online: 22 October 2006
17. Long-period gratings in chalcogenide (As2S3) rib waveguides
    Finsterbusch, K.; Baker, N.; Ta’eed, V.G.; Eggleton, B.J.; Choi, D.; Madden, S.; Luther-Davis, B.,
    Electronics Letters , vol.42, no.19pp. 1094- 1095, Sept. 2006
18. Sampled Bragg gratings in chalcogenide (As2S3) rib-waveguides
    N. J. Baker, H. W. Lee, I. C. Littler, C. M. de Sterke, B. J. Eggleton, D.-Y. Choi, S. Madden, and B. Luther-Davies,
    Opt. Express 14, 9451-9459 (2006)
19. Single scatterer Fano resonances in solid core photonic band gap fibers
    P. Steinvurzel, C. Martijn de Sterke, M. J. Steel, B. T. Kuhlmey, and B. J. Eggleton,
    Opt. Express 14, 8797-8811 (2006)
20. 2R optical regeneration: an all-optical solution for BER improvement
    M. Rochette, L. Fu; V. Ta’eed, D. J. Moss, B. J. Eggleton,
    IEEE Journal of Selected Topics in Quantum Electronics 12, 736- 744, (2006)
21. Widely tunable, acousto-optic resonances in Chalcogenide As2Se3 fiber
    I.C. M. Littler, L. B. Fu, E. C. Mägi, D. Pudo, and B. J. Eggleton,
    Opt. Express 14, 8088-8095 (2006)
22. Confinement loss in adiabatic photonic crystal fiber tapers
    B. T. Kuhlmey, H. C. Nguyen, M. J. Steel, and B. J. Eggleton,
    J. Opt. Soc. Am. B 23, 1965-1974 (2006)
23. Impact of chromatic dispersion and group delay ripple on self-phase modulation based optical regenerators
    Ian C.M. Littler, Martin Rochette and Benjamin J. Eggleton,
    Optics Communications, Volume 265, Issue 1, 1 September 2006, Pages 95-99.
24. Investigation of single harmonic group delay ripple on picosecond pulses using FROG: Tailoring pulse bursts
    Ian C.M. Littler, Libin Fu, Michael Lee and Benjamin J. Eggleton,
    Optics Communications, Volume 265, Issue 1, 1 September 2006, Pages 147-152.
25. Actuation of cantilevers by optical trapping
    Peter Domachuk, Eric Magi, Benjamin J. Eggleton, and Mark Cronin-Golomb,
    Appl. Phys. Lett. 89, 071106 (2006).
26. Spontaneous emission suppression via quantum path interference in coupled-microcavities
    M.M. Dignam, D.P. Fussell, M.J. Steel, C. Martijn de Sterke, and R.C. McPhedran,
    Phys. Rev. Lett. 96, 103902:1-4 (2006).
27. Frequency shift of sources embedded in finite two-dimensional photonic clusters
    A.A. Asatryan, L.C. Botten, N.A. Nicorovici, R.C. McPhedran, and C. Martijn de Sterke,
    Waves in Random and Complex Media 16, 151-165 (2006).
28. From Multipole Methods to Photonic Crystal Device Modelling
    L. C. Botten, R. C. McPhedran, C. M. de Sterke, N. A. Nicorovici, A. A. Asatryan, G. H. Smith, T. N. Langtry, T. P. White, D. P. Fussell, and B. T. Kuhlmey,
    Chapter 2 of “Electromagnetic Theory and Applications for Photonic Crystals,” Ed. K. Yasumoto (CRC Press Inc., 2006, ISBN 0849336775), pp. 47-122.
29. Mode field distributions in solid core photonic bandgap fibers
    P. Steinvurzel, C.M. de Sterke, B.J. Eggleton, B.T. Kuhlmey and M.J. Steel,
    Optics Communications, Volume 263, Issue 2, , 15 July 2006, Pages 207-213
30. 3R optical regeneration: an all-optical solution with BER improvement
    M. Rochette, J. L. Blows, and B. J. Eggleton,
    Opt. Express 14, 6414-6427 (2006)
31. Electric-arc-induced long-period gratings in fluid-filled photonic bandgap fibre
    Iredale, T.B.; Steinvurzel, P.; Eggleton, B.J.,
    Electronics Letters , vol.42, no.13pp. 739- 740, June 22, 2006
32. High-performance Bragg gratings in chalcogenide rib waveguides written with a modified Sagnac interferometer
    M. Shokooh-Saremi, V. G. Ta’eed, N. J. Baker, I. C. M. Littler, D. J. Moss, B. J. Eggleton, Y. Ruan, and B. Luther-Davies,
    J. Opt. Soc. Am. B 23, 1323-1331 (2006)
33. Photothermal effects in fiber Bragg gratings
    Ian C. M. Littler, Tom Grujic, and Benjamin J. Eggleton,
    Appl. Opt. 45, 4679-4685 (2006)
34. Tuning properties of long period gratings in photonic bandgap fibers
    P. Steinvurzel, E. D. Moore, E. C. Mägi, and B. J. Eggleton,
    Opt. Lett. 31, 2103-2105 (2006)
35. Self-phase modulation-based integrated optical regeneration in chalcogenide waveguides
    Ta’eed, V.G.; Shokooh-Saremi, M.; Fu, L.; Littler, I.C.M.; Moss, D.J.; Rochette, M.; Eggleton, B.J.; Yinlan Ruan; Luther-Davies, B.,
    Selected Topics in Quantum Electronics, IEEE Journal of , vol.12, no.3pp. 360- 370, May-June 2006
36. Generation of a 4$times$100 GHz Pulse-Train From a Single-Wavelength 10-GHz Mode-Locked Laser Using Superimposed Fiber Bragg Gratings and Nonlinear Conversion
    Magne, J. Bolger, J. Rochette, M. LaRochelle, S. Chen, L.R. Eggleton, B.J. Azana, J.,
    Lightwave Technology, Journal of, May 2006 Volume: 24, Issue: 5
37. Dispersion in nonlinear figure of merit of As2Se3 chalcogenide fibre
    Nguyen, H.C.; Finsterbusch, K.; Moss, D.J.; Eggleton, B.J.,
    Electronics Letters , vol.42, no.10pp. 571- 572, May 2006
38. Two-Photon Absorption Effects on Self-Phase-Modulation-Based 2R Optical Regeneration
    Lamont, M.R.E.; Rochette, M.; Moss, D.J.; Eggleton, B.J.,
    Photonics Technology Letters, IEEE Volume 18, Issue 10, May 15 2006 Page(s):1185 – 1187
39. Diamond based photonic crystal microcavities
    S. Tomljenovic-Hanic, M. J. Steel, C. M. de Sterke and J. Salzman,
    Optics Express 14, 3556-3562 (2006)
40. Long-period gratings in chalcogenide fibers
    D. Pudo, E. C. Mägi, and B. J. Eggleton,
    Opt. Express 14, 3763-3766 (2006)
41. Long period grating resonances in photonic bandgap fiber
    P. Steinvurzel, E. D. Moore, E. C. Mägi, B. T. Kuhlmey, and B. J. Eggleton,
    Opt. Express 14, 3007-3014 (2006)
42. Compact resonant integrated microfluidic refractometer
    P. Domachuk, I. C. M. Littler, M. Cronin-Golomb, and B. J. Eggleton,
    Appl. Phys. Lett. 88, 093513 (2006)
43. Differential group delay monitoring using an all-optical signal spectrum-analyser
    Justin L. Blows, Peifang Hu and Benjamin J. Eggleton,
    Optics Communications, Volume 260, Issue 1, 1 April 2006, Pages 288-291
44. Efficient optical pulse compression using chalcogenide single-mode fibers
    Libin Fu, Alexander Fuerbach, Ian C. M. Littler, and Benjamin J. Eggleton,
    Appl. Phys. Lett. 88, 081116 (2006)
45. Efficient coupling to chalcogenide glass photonic crystal waveguides via silica optical fiber nanowires
    C. Grillet, C. Smith, D. Freeman, S. Madden, B. Luther-Davies, E. Magi, D. Moss, and B. Eggleton,
    Opt. Express 14, 1070-1078 (2006)
46. Packing density of conventional waveguides and photonic crystal waveguides
    S. Tomljenovic-Hanic, C. M. de Sterke and M. J. Steel,
    Optics Communications, Vol. 259, 142-148 (2006)
47. All-Optical In-Band OSNR Monitoring at 40 Gb/s Using a Nonlinear Optical Loop Mirror
    Adams, R.; Rochette, M.; Ng, T.T.; Eggleton, B.J.,
    Photonics Technology Letters, IEEE , vol.18, no.3pp. 469- 471, Feb. 1 2006
48. Characterization and modeling of Fano resonances in chalcogenide photonic crystal membranes
    C. Grillet, D. Freeman, B. Luther-Davies, S. Madden, R. McPhedran, D. J. Moss, M. J. Steel, and B. J. Eggleton,
    Opt. Express 14, 369-376 (2006)
49. Supermodes in multiple coupled photonic crystal waveguides
    L. C. Botten, R. A. Hansen, and C. M. de Sterke,
    Opt. Express 14, 387-396 (2006)

2005 Publications

1. Fiber Bragg gratings for dispersion compensation in optical communication systems
   M. Sumetsky and B.J. Eggleton,
   Journal of Optical and Fiber Communications Reports, Volume 2, Issue 3, Sep 2005, Pages 256 – 278
2. Laboratory post-engineering of microstructured optical fibre
   B. J. Eggleton, P. Domachuk, C. Grillet, E. C. Magi, H. C. Nguyen, P. Steinvurzel and M. J. Steel,
   Progress in Optics, Volume 48, Page 1-32 (2005).
3. Integrated all-optical pulse regenerator in chalcogenide waveguides
   V. Ta’eed, M. Shokooh-Saremi, L. Fu, D. Moss, M. Rochette, I. Littler, B. Eggleton, Y. Ruan, and B. Luther-Davies,
   Opt. Lett. 30, 2900-2902 (2005)
4. Application of optical trapping to beam manipulation in optofluidics
   P. Domachuk, M. Cronin-Golomb, B. J. Eggleton, S. Mutzenich, G. Rosengarten, and A. Mitchell,
   Opt. Express 13, 7265-7275 (2005)
5. Investigation of self-phase modulation based optical regeneration in single mode As2Se3 chalcogenide glass fiber
   L. B. Fu, M. Rochette, V. G. Ta’eed, D. J. Moss, and B. J. Eggleton,
   Opt. Express 13, 7637- (2005)
6. Soliton compression and pulse-train generation by use of microchip Q-switched pulses in Bragg gratings
   Joe T. Mok, Ian C. M. Littler, Eduard Tsoy, Benjamin J. Eggleton,
   Optics Letters, Volume 30, Issue 18, 2457-2459 September 2005
7. Coupling to high-index waveguides via tapered microstructured optical fibre
   Moss, D.J.; Miao, Y.; Ta’eed, V.; Magi, E.C.; Eggleton, B.J.,
   Electronics Letters, Vol.41, Issue 17, Pg 23-24, 18 August 2005
8. Effect of group delay ripple on picosecond pulse compression schemes
   I. C. M. Littler, Libin Fu, B. J. Eggleton,
   Applied Optics, Vol. 44 Issue 22 Page 4702 (August 2005)
9. A Dispersionless and Bandwidth-Adjustable FBG Filter for Reconfigurable 2R-Regeneration
   M. Rochette, I.C.M. Littler, R.W. McKerracher, B.J. Eggleton,
   Photonics Technology Letters, IEEE Volume 17, Issue 8, Aug. 2005 Page(s):1680 – 1682
10. Ultra-strong, well-apodised Bragg gratings in chalcogenide rib waveguides
    Shokooh-Saremi, M.; Ta’eed, V.G.; Littler, I.C.M.; Moss, D.J.; Eggleton, B.J.; Ruan, Y.; Luther-Davies, B.,
    Electronics Letters Volume 41, Issue 13, 23 Jun 2005 Page(s):21 – 22
11. Tapered photonic crystal fibres: properties, characterisation and applications
    H. C. Nguyen, B. T. Kuhlmey, E. C. Mägi, M. J. Steel, P. Domachuk, C. L. Smith, B. J. Eggleton,
    Applied Physics B: Lasers and Optics, Volume 81, Issue 2 – 3, Jul 2005, Pages 377 – 387
12. Transverse characterization of high air-fill fraction tapered photonic crystal fiber
    Domachuk P, Chapman A, Magi E, Steel MJ, Nguyen HC, Eggleton BJ,
    APPLIED OPTICS 44 (19): 3885-3892 JUL 1 2005
13. In-band OSNR and chromatic dispersion monitoring using a fibre optical parametric amplifier
    Ng TT, Blows JL, Rochette M, Bolger JA, Littler I, Eggleton BJ,
    OPTICS EXPRESS 13 (14): 5542-5552 JUL 11 2005
14. Femtosecond laser writing Bragg gratings in pure silica photonic crystal fibres
    Fu LB, Marshall GD, Bolger JA, Steinvurzel P, Magi EC, Withford MJ, Eggleton BJ.,
    ELECTRONICS LETTERS 41 (11): 638-640 MAY 26 2005
15. Continuously tunable bandpass filtering using high-index inclusion microstructured optical fibre
    Steinvurzel P, Eggleton BJ, de Sterke CM, Steel MJ,
    Electronics Letters 41 (8), 463-464 (2005)
16. Optimization of distributed resistive metal film heaters in thermally tunable dispersion compensators for high-bit-rate communication systems
    Steinvurzel P, MacHarrie RA, Baldwin KW, Van Hise CW, Eggleton BJ, Rogers JA,
    Applied Optics, 44 (14), 2782-2791 (2005)
17. In-band OSNR monitoring using fibre optical parametric amplifier
    Ng TT, Blows JL, Eggleton BJ,
    Electronics Letters, 41 (6), 352-353 (2005)
18. Software speeds measurement and modeling of air-silica photonic crystals
    Steel MJ, Eggleton BJ, Domachuk P, Nguyen H,
    Photonics Spectra, 39 (3), 88+ MAR 2005
19. Bit-error-ratio improvement with 2R optical regenerators
    Rochette, M.; Kutz, J.N.; Blows, J.L.; Moss, D.; Mok, J.T.; Eggleton, B.J.,
    Photonics Technology Letters, IEEE, 17(4) 908 – 910 (2005)
20. Exact modelling of defect modes in photonic crystals
    S. Wilcox, L.C. Botten, R.C. McPhedran, C.G. Poulton, and C. Martijn de Sterke,
    Phys. Rev. E 71 056606:1-11 (2005)
21. Optical filters based on dynamic localization in curved coupled optical waveguides
    J. Wan, M. Laforest, C.M. de Sterke, and M.M. Dignam,
    Optics Communications 247, 353-365 (2005)
22. N-fold symmetric gratings as gain-flattening filters
    A. Lobo, C. Martijn de Sterke, and J.A. Besley,
    J. Lightwave Technology 23, 1441-1448 (2005)
23. Talbot self-imaging and cross-phase modulation for generation of tunable high repetition rate pulse trains
    J.A. Bolger, P. Hu, J.T. Mok, J.L. Blows, B.J. Eggleton,
    Optics Communications, v249 pp431-439 (2005)
24. Matched photonic bandgap fibre and fibre Bragg grating dispersion for all in-fibre stretch pulse amplification
    Libin Fu, Ian C.M. Littler, Joe T. Mok & Benjamin Eggleton,
    Electronics Letters 41, 306-307 (2005)
25. Adjustable bandwidth dispersionless bandpass FBG optical filter
    Ian C.M. Littler, Martin Rochette & Benjamin Eggleton,
    Optics Express 13, 3397-3407, (2005)
26. Ultra-fast all-optical modulation via two-photon absorption in silicon-on-insulator waveguides
    D.J. Moss, L. Fu, I. Littler, and B. J. Eggleton,
    Electron. Lett. 41, 320-321 (2005)
27. Photothermal effects in passive fiber Bragg grating resonators
    Jong H. Chow, Benjamin S. Sheard, David E. McClelland, Malcolm B. Gray and Ian C. M. Littler,
    Optics Letters, 30, 708-710, (2005)
28. Phase-sensitive interrogation of fiber Bragg grating resonators for sensing applications
    Jong H. Chow, Ian C.M. Littler, Glenn de Vine, David E. McClelland, and Malcolm B. Gray,
    Journal of Lightwave Technology 23, 1881-1889 (2005)
29. Nonlinear propagation effects in anti-resonant high-index inclusion photonic crystal fibers
    A. Fuerbach, P. Steinvurzel, J.A. Bolger, A. Nulsen, B.J. Eggleton,
    Optics Letters 30, 830-832 (2005)
30. Nonlinear pulse propagation at zero dispersion wavelength in anti-resonant photonic crystal fibers
    A. Fuerbach, P. Steinvurzel, J.A. Bolger, B.J. Eggleton,
    Optics Express 13, 2977-2987 (2005)
31. Leakage of the fundamental mode in photonic crystal fiber tapers
    Nguyen HC, Kuhlmey BT, Steel MJ, Smith CL, Magi EC, McPhedran RC, Eggleton BJ,
    Optics Letters 30 (10): 1123-1125 May 15 2005
32. Two-deimensional Tratment of the Decay Rate and Level Shift in Photonic Crystals: Numerical and Analytical Results
    Fussel DP, McPhedran RC, de Sterke CM,
    Phys. Rev. E, 72, 046605 (2005)
33. Highly-efficient Wide-angle Transmission into Uniform Rod-type Photonic Crstals
    White TP, de Sterke CM, McPhedran RC and Botten LC,
    Applied Physics Letters, 87 111107-1-3 (2005)
34. Neumann Series and Lattic Sums
    McPhedran RC, Nicorovici NA and Botten LC,
    J. Math. Phys., 46, 083509-1-14 (2005)
35. Schlomilch Series and Grating Sums
    McPhedran RC, Nicorovici NA and Botten LC,
    J. Phys. A, 38, 8353-8366 (2005)
36. A Proof of Superlensing in the Quasistatic Regime, and Limitations of Superlenses in this Regim due to Anomalous Localized Resonance
    Milton GW, Nicorovici NA, McPhedran RC and Podolskiy VW,
    Proc. Roy. A, doiL10.1098/rspa.2005.1570
37. Long wavelength behavior of the fundamental mode in microstructured optical fibers
    Wilcox S, Botten LC, de Sterke CM, Kuhlmey BT, McPhedran RC, Fussell DP, Tomljenovic-Hanic S,
    Optics Express 13 (6): 1978-1984 Mar 21 2005
38. Second mode transition in microstructured optical fibers: determination of the critical geometrical parameter and study of the matrix refractive index and effects of cladding size
    Gilles Renversez, Frédéric Bordas, Boris T. Kuhlmey,
    Optics Letters, Vol. 30 (11) 1264 (2005)
39. Directional channel-drop filter based on a slow Bloch mode photonic crystal waveguide section
    E. Drouard, H. T. Hattori, C. Grillet, A. Kazmierczak, X. Letartre, P. Rojo-Romeo, and P. Viktorovitch,
    Opt. Express 13, 3037-3048 (2005)
40. Enhanced Supercontinuum Generation through Dispersion-Management
    J. Nathan Kutz, C Lyngå, and B. J. Eggleton,
    Optics Express 13, 3989-3998 (2005)
41. Decay rate and level shift in a circular dielectric waveguide
    D. P. Fussell, R. C. McPhedran, and C. M. de Sterke,
    Phys. Rev. A 71, 013815 (2005)
42. Analytic properties of photonic crystal superprism parameters
    M. J. Steel, R. Zoli, C. Grillet, R. C. McPhedran, C. Martijn de Sterke, A. Norton, P. Bassi, and B. J. Eggleton,
    Phys. Rev. E 71, 056608 (2005)
43. Spectral Talbot effect: interpretation via band diagrams
    C. Martijn de Sterke and Benjamin J. Eggleton,
    Optics Communications, 248(1-3), 117-121 (2005)
44. Optofluidics enables compact tunable interferometer
    Grillet C, Domachuck P, Eggleton B, Cooper-White J,
    Laser Focus World 41 (2), 100+ (2005)
45. Photonics – Expect more delays
    Mok JT, Eggleton BJ,
    Nature 433 (7028), 811-812 (2005)
46. Cascaded Four-Wave Mixing in Fiber Optical Parametric Amplifiers: Application to Residual Dispersion Monitoring
    Ng, T.T.; Blows, J.L.; Mok, J.T.; McKerracher, R.W.; Eggleton, B.J.,
    Journal of Lightwave Technology, 23 (2), 818 – 826 (2005)
47. “Air-hole collapse and mode transitions in microstructured fiber photonic wires”
    E. C. Mägi, H. C. Nguyen, and B. J. Eggleton,
    Optics Express 13, 453-459 (2005)
48. Conductance of photons in disordered photonic crystals
    A. Asatryan, L.C. Botten, M.A. Byrne, T.N. Langtry, N. Nicorovici, R.C. McPhedran, C.M.de Sterke, and P.A Robinson,
    Phys. Rev. E 71 36623:1-8 (2005)
49. Microfluidic interferometer
    P. Domachuk, C. Grillet, V. Ta’eed, E. Mägi, J. Bolger, B. J. Eggleton, L. E. Rodd, and J. Cooper-White,
    Applied Physics Letters, 86, 024103 (2005)

2004 Publications

1. Differential multipole method for microstructured optical fibers
   Campbell S, McPhedran RC, de Sterke CM, Botten LC,
   Journal of the Optical Society of America B – Optical Physics, 21 (11): 1919-1928 NOV 2004
2. Bloch mode scattering matrix methods for modelling extended photonic crystal structures. II. Applications
   T.P. White, L.C. Botten, C. Martijn de Sterke, R.C. McPhedran, A.A. Asatryan, and T.N. Langtry,
   Phys. Rev. E 70, 056607 (2004)
3. 200-m Optical Fibre with Integrated Electrode And Its Poling
   K. Lee, P. Hu, J.L. Blows, D. Thorncraft and J. Baxter,
   Optics Letters, 29 (18), 2124-2126 (2004)
4. Bragg gratings in silicon-on-insulator waveguides by focused ion beam milling
   D. J. Moss, V. G. Ta’eed, B. J. Eggleton, D. Freeman, S. Madden, M. Samoc, B. Luther-Davies, S. Janz, and D. -. Xu,
   Applied Physics Letters, 85, 4860-4861 (2004)
5. Compact tunable microfluidic interferometer
   C. Grillet, P. Domachuk, V. Ta’eed, E. Mägi, J. A. Bolger, B. J. Eggleton, L. E. Rodd, and J. Cooper-White,
   Optics Express 12, 5440-5447 (2004)
6. Long wavelength anti-resonant guidance in high index inclusion microstructured fibers
   P. Steinvurzel, B. T. Kuhlmey, T. P. White, M. J. Steel, C. M. de Sterke, and B. J. Eggleton,
   Optics Express 12, 5424-5433 (2004)
7. Higher order mode conversion via focused ion beam milled Bragg gratings in Silicon-on-Insulator waveguides
   V. G. Ta’eed, D. J. Moss, B. J. Eggleton, D. Freeman, S. Madden, M. Samoc, B. Luther-Davies, S. Janz, and D. -. Xu,
   Optics Express 12, 5274-5284 (2004)
8. Transverse characterization of tapered photonic crystal fibers
   E.C. Magi, P. Steinvurzel, and B.J. Eggleton,
   Journal of Applied Physics, 96 (7) 3976-3982 (2004)
9. Investigation of group delay ripple distorted signals transmitted through all-optical 2R regenerators
   J. T. Mok, J. L. Blows, and B. J. Eggleton,
   Optice Express, 12, 4411-4422 (2004)
10. Experimental and Finite-Difference Time-Domain Technique Characterisation of Transverse In-Line Photonic Crystal Fiber
    Nguyen, H.C. Domachuk, P. Steel, M.J. Eggleton, B.J.,
    Photonics Technology Letters, IEEE, 16 (8), 1852-1854 (2004)
11. Transverse Probed Microfluidic Switchable Photonic Crystal Fiber Devices
    Domachuk, P. Nguyen, H.C. Eggleton, B.J.,
    Photonics Technology Letters, IEEE, 16 (8), 1900-1902 (2004)
12. Microstructured optical fiber photonic wires with subwavelength core diameter
    Yannick K. Lizé, Eric C. Mägi, Vahid G. Ta’eed, Jeremy A. Bolger, Paul Steinvurzel, and Benjamin J. Eggleton,
    Optics Express, 12 (14), 3209 – 3217 (2004)
13. Dynamic localization and quasi-Bloch oscillations in general perdiodic ac-dc electric fields
    J. Wan, C. Martijn de Sterke and M. M. Dignam,
    Physical Review B, 70, 125311 (2004)
14. Recirculation-enhanced switching in photonic crystal Mach-Zehnder interferometers
    T.P.White, C.Martijn de Sterke, R.C.McPhedran and T. Huang,
    Optics Express, 12 (13): 28 June (2004)
15. Systematic analysis of wavelength conversion in a fiber optical parametric device with a single, tunable pump
    R. McKerracher, J.L. Blows and C.M. deSterke,
    Optics Express 12, 2810-2815 (2004)
16. Design strategy for controlling four-wave mixing-induced crosstalk between channels in a fibre optical parametric amplifier
    Blows JL,
    Optics Communications 236 (1-3): 115-122 JUN 1 2004
17. Cross-talk-induced limitations of two-pump optical fiber parametric amplifiers
    Blows JL, Hu PF,
    Journal of the Optical Society of America B-Optical Physics 21 (5): 989-995 MAY 2004
18. Reflection symmetry and mode transversality in microstructured fibers
    Steel MJ,
    Optics Express 12 (8): 1497-1509 APR 19 2004
19. A new slant on photonic crystal fibers
    H. C. Nguyen, P. Domachuk, B. J. Eggleton, M. J. Steel, M. Straub, M. Gu, and M. Sumetsky,
    Optics Express 12, 1528-1539 (2004)
20. Application of an ARROW model for designing tunable photonic devices
    Litchinitser NM, Dunn SC, Steinvurzel PE, et al.,
    Optics Express 12 (8): 1540-1550 APR 19 2004
21. Photonic crystal devices modelled as grating stacks: matrix generalizations of thin film optics
    Botten LC, White TP, Martijn de Sterke C, McPhedran RC, Asatryan AA, Langtry TN,
    Optics Express 12 (8): 1592-1604 APR 19 2004
22. Bloch method for the analysis of modes in microstructured optical fibers
    Kuhlmey BT, McPhedran RC, de Sterke CM,
    Optics Express 12 (8): 1769-1774 APR 19 2004
23. Electron dynamics and dynamic localization in asymmetric periodic potentials
    Wan J, Domachuk P, Dignam MM, et al.,
    Physical Review B 69 (11): Art. No. 113304 MAR 2004
24. Manipulating light by microfluidic motion in microstructured optical fibers
    Kerbage C, Eggleton BJ,
    Optical Fiber Technology 10 (2): 133-149 APR 2004
25. Microfluidic tunable photonic band-gap device
    Domachuk P, Nguyen HC, Eggleton BJ, et al.,
    Applied Physics Letters 84 (11): 1838-1840 MAR 15 2004
26. Tapered photonic crystal fibers
    Magi EC, Steinvurzel P, Eggleton BJ,
    Optics Express 12 (5): 776-784 MAR 8 2004
27. Aperiodic 1-dimensional structures for quasi-phase matching
    Norton AH, de Sterke CM,
    Optics Express 12 (5): 841-846 MAR 8 2004
28. Impact of group delay ripple on repetition-rate multiplication through Talbot self-imaging effect
    Mok JT, Eggleton BJ,
    Optics Communications 232 (1-6): 167-178 MAR 1 2004
29. Parametric amplification in the presence of dispersion fluctuations
    Farahmand M, de Sterke M,
    Optics Express 12 (1): 136-142 JAN 12 2004
30. Photonics – Shrinking optical fibres
    Domachuk P, Eggleton BJ,
    Nature MATERIALS 3 (2): 85-86 FEB 2004
31. Enhanced response of Mach-Zender interferometers in photonic crystals
    T.P White, C. Martijn de Sterke, R.C. McPhedran, T. Huang, and L.C. Botten,
    Optics Express 12, 3035-3045 (2004)
32. Modes of coupled photonic crystal waveguides
    C. Martijn de Sterke, L.C. Botten, A.A. Asatryan, T.P. White and R.C. McPhedran,
    Optics Letters 29, 1384-1386 (2004)
33. Coupled mode theory: limitations and applicability
    A. Judge, L Poladian and C. Martijn de Sterke,
    J. Mod. Optics, 15, 447-454 (2004)
34. Symmetry analysis of self-written waveguides in bulk photosensitive media
    L. Poladian, M. Senthilvelan, J.A. Besley, and C. Martijn de Sterke,
    Phys. Rev. E 69, 16608:1-10 (2004)
35. Density of states functions for photonic crystals
    R.C. McPhedran, L.C. Botten, J. McOrist, A.A. Asatryan, C.M. de Sterke, and N.A. Nicorovici,
    Phys.Rev. E 69, 16609:116 (2004)
36. Vector treatment of second-harmonic generation produced by tightly focused vignetted Gaussian beams
    A.A. Asatryan, C.J.R. Sheppard and C. Martijn de Sterke,
    J Opt. Soc. Am. B 21, 2206-2212 (2004)
37. Three-dimensional Green’s tensor, local density of states and spontaneous emission in finite two-dimensional photonic crystal composed of cylinders
    D. P. Fussell, R. C. McPhedran, and C. M. de Sterke,
    Phys. Rev. E 70, 066608 (2004)

2003 Publications

1. Ultracompact resonant filters in photonic crystals
   White TP, Botten LC, McPhedran RC, et al.,
   Optics Letters 28 (24): 2452-2454 DEC 15 2003
2. Simultaneous residual chromatic dispersion monitoring and frequency conversion with gain using a parametric amplifier
   Ng TT, Blows JL, Mok JT, et al.,
   Optics Express 11 (23): 3122-3127 NOV 17 2003
3. Gain-flattening filter design using rotationally symmetric crossed gratings
   Lobo AE, Besley JA, de Sterke CM,
   Journal of Lightwave Technology 21 (9): 2084-2088 SEP 2003
4. Effects of disorder in two-dimensional photonic crystal waveguides
   Langtry TN, Asatryan AA, Botten LC, et al.,
   Physical Review E 68 (2): Art. No. 026611 Part 2 AUG 2003
5. High-performance 40 Gbit/s fibre Bragg grating tunable dispersion compensator fabricated using group delay ripple correction technique
   Sumetsky M, Litchinitser NM, Westbrook PS, et al.,
   Electronics Letters 39 (16): 1196-1198 AUG 7 2003
6. Cylinder gratings in conical incidence with applications to woodpile structures
   Smith GH, Botten LC, McPhedran RC, et al.,
   Physical Review E 67 (5): Art. No. 056620 Part 2 MAY 2003
7. Resonances in microstructured optical waveguides
   Litchinitser NM, Dunn SC, Usner B, et al.,
   Optics Express 11 (10): 1243-1251 MAY 19 2003
8. Two-dimensional poling patterns for 3rd and 4th harmonic generation
   Norton AH, de Sterke CM,
   Optics Express 11 (9): 1008-1014 MAY 5 2003
9. Wavelength conversion bandwidth in fibre based optical parametric amplifiers
   R. McKerracher, J. Blows and M.C. deSterke,
   Optics Express 11, 1002-1007 (2003)
10. Semianalytic treatment for propagation in finite photonic crystal waveguides
    Botten LC, Asatryan AA, Langtry TN, et al.,
    Optics Letters 28 (10): 854-856 MAY 15 2003
11. Modeling and optimization of complex photonic resonant cavity circuits
    Sumetsky M, Eggleton BJ,
    Optics Express 11 (4): 381-391 FEB 24 2003
12. Diffusion and anomalous diffusion of light in two-dimensional photonics crystals
    A.A. Asatryan, P.A. Robinson R.C. McPhedran, C.M. de Sterke, T.L. Langtry and N.A. Nicorovici,
    Phys. Rev. E 67, 036605:1-8 (2003)
13. Optimal poling of photonic crystals for frequency conversion
    A.H. Norton and C. Martijn de Sterke,
    Optics Letters 28, 188-190 (2003)
14. Dynamical localization and AC Bloch oscillations in periodic optical waveguide arrays
    G. Lenz, R. Parker, M.C. Wanke and C.M. de Sterke,
    Optics Communications 218, 87-92 (2003)
15. Two-dimensional Green tensor and local density of states in finite-sized two-dimensional photonic crystals
    A.A. Asatryan, K. Busch, R.C. McPhedra, L.C. Botten, C. Martijn de Sterke, and N.A. Nicorovici,
    Waves in Random Media, 13, 9 (2003)
16. Three-dimensional local density of states in a finite two-dimensional photonic crystal composed of cylinders
    D. P. Fussell, R. C. McPhedran, C. M. de Sterke, and A. A. Asatryan,
    Phys. Rev. E 67, 045601(R) (2003)