M
Martin M. Fejer
Researcher at Stanford University
Publications - 1227
Citations - 104666
Martin M. Fejer is an academic researcher from Stanford University. The author has contributed to research in topics: Lithium niobate & Gravitational wave. The author has an hindex of 123, co-authored 1190 publications receiving 88708 citations. Previous affiliations of Martin M. Fejer include Laser Interferometer Gravitational Wave Observatory & University of Florida.
Papers
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Journal Article
A fully programmable 100-spin coherent Ising machine with all-to-all connections
Peter L. McMahon,Alireza Marandi,Yoshitaka Haribara,Ryan Hamerly,Carsten Langrock,Shuhei Tamate,Takahiro Inagaki,Hiroki Takesue,Shoko Utsunomiya,Kazuyuki Aihara,Robert L. Byer,Martin M. Fejer,Hideo Mabuchi,Yoshihisa Yamamoto +13 more
TL;DR: A scalable optical processor with electronic feedback that can be realized at large scale with room-temperature technology is presented and is able to find exact solutions of, or sample good approximate solutions to, a variety of hard instances of Ising problems.
Journal ArticleDOI
Observation of extremely large quadratic susceptibility at 9.6-10.8 microm in electric-field-biased AlGaAs quantum wells.
TL;DR: An extremely large second-order susceptibility for second-harmonic generation of 9.6\char21{}10.8 \ensuremath{\mu}m radiation due to intersubband transitions in electric-field-biased GaAs quantum wells is observed.
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42%-efficient single-pass cw second-harmonic generation in periodically poled lithium niobate
TL;DR: A full-wafer fabrication process for periodically poled lithium niobate with a 6.5-mum domain period is presented for single-pass cw 1064-nm Nd:YAG second-harmonic generation.
Journal ArticleDOI
Improved dispersion relations for GaAs and applications to nonlinear optics
Torbjørn Skauli,Paulina S. Kuo,Konstantin L. Vodopyanov,T.J. Pinguet,Ofer Levi,L.A. Eyres,James S. Harris,Martin M. Fejer,Bruno Gérard,L. Becouarn,Eric Lallier +10 more
TL;DR: In this article, the authors measured the refractive index of GaAs in the wavelength range from 0.97 to 17 μm, which covers nearly the entire transmission range of the material.
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Long-distance free-space quantum key distribution in daylight towards inter-satellite communication
Sheng-Kai Liao,Hai-Lin Yong,Chang Liu,Guo-Liang Shentu,Dong-Dong Li,Jin Lin,Hui Dai,Shuang-Qiang Zhao,Bo Li,Jian-Yu Guan,Wei Chen,Yun-Hong Gong,Yang Li,Zehong Lin,Ge-Sheng Pan,Jason S. Pelc,Martin M. Fejer,Wen-Zhuo Zhang,Wei-Yue Liu,Juan Yin,Ji-Gang Ren,Xiang-Bin Wang,Qiang Zhang,Cheng-Zhi Peng,Jian-Wei Pan +24 more
TL;DR: In this paper, the authors demonstrate free-space quantum key distribution over 53 km during the day by choosing a working wavelength of 1,550 nm and developing free space single-mode fiber-coupling technology and ultralow-noise upconversion single-photon detectors.