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个人简介
Eggleton is the author or coauthor of more than 500 journal publications, including Science, Nature Photonics, Nature Physics, Nature Communications, Physical Review Letters and Optica and over 200 invited presentations. His journal papers have been cited 2,000 times according to webofscience with an h-number of 76 (102 in google scholar).
Eggleton is a Fellow of the Australian Academy of Science (AAS), the Australian Academy of Technology and Engineering (ATSE), the Optical Society of America, IEEE Photonics and SPIE. He is Editor-in-Chief of APL Photonics.
Research interests
Eggleton's research links fundamental to applied science and spans physics and engineering. He has made pioneering contributions to nonlinear optics and all-optical signal processing with recent breakthrough achievements in the nonlinear optics of periodic media, slow-light in photonic crystals and ultrafast planar waveguide nonlinear optics. His research into new classes of nonlinear waveguides has created a new paradigm for photonic chip based ultrafast optical signal processing and his group holds various world records.
Eggleton's breakthroughs in the nonlinear optics of chalcogenide glasses have led to his demonstrations of new ultrafast optical devices for telecommunications applications, record low-threshold supercontinuum generation sources and on-chip parametric sources. His group reported the first demonstration of on-chip stimulated Brillouin scattering, and holds the record for on-chip SBS gain. His fundamental breakthroughs include the first demonstrations of gap soliton formation in periodic media and of slow-light-enhanced nonlinear optics in photonic crystals.
Eggleton is a Fellow of the Australian Academy of Science (AAS), the Australian Academy of Technology and Engineering (ATSE), the Optical Society of America, IEEE Photonics and SPIE. He is Editor-in-Chief of APL Photonics.
Research interests
Eggleton's research links fundamental to applied science and spans physics and engineering. He has made pioneering contributions to nonlinear optics and all-optical signal processing with recent breakthrough achievements in the nonlinear optics of periodic media, slow-light in photonic crystals and ultrafast planar waveguide nonlinear optics. His research into new classes of nonlinear waveguides has created a new paradigm for photonic chip based ultrafast optical signal processing and his group holds various world records.
Eggleton's breakthroughs in the nonlinear optics of chalcogenide glasses have led to his demonstrations of new ultrafast optical devices for telecommunications applications, record low-threshold supercontinuum generation sources and on-chip parametric sources. His group reported the first demonstration of on-chip stimulated Brillouin scattering, and holds the record for on-chip SBS gain. His fundamental breakthroughs include the first demonstrations of gap soliton formation in periodic media and of slow-light-enhanced nonlinear optics in photonic crystals.
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Birgit Stiller, Kevin Jaksch,Johannes Piotrowski, Moritz Merklein,Mikołaj K. Schmidt, Khu Vu,Pan Ma, Stephen Madden,Michael J. Steel, Christopher G. Poulton,Benjamin J. Eggleton
npj Nanophotonicsno. 1 (2024): 1-6
AMERICAN JOURNAL OF HYPERTENSIONno. 7 (2023): 372-384
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Y. A. N. M. E. Cao,Byoung-uk Sohn,Ju won Choi, E. Z. G. Sahin,George f. r. Chen,Kenny y. k. Ong,Doris k. t. Ng,Benjamin j. Eggleton,Dawn t. h. Tan
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2023 Conference on Lasers and Electro-Optics (CLEO)pp.1-2, (2023)
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NANOPHOTONICSno. 8 (2023): 1421-1433
Govert Neijts,Choon Kong Lai, Maren Kramer Riseng,Duk-Yong Choi,Kunlun Yan,David Marpaung,Stephen J. Madden,Benjamin J. Eggleton,Moritz Merklein
2023 IEEE PHOTONICS CONFERENCE, IPCpp.1-2, (2023)
LASER & PHOTONICS REVIEWSno. 12 (2023)
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