Proceedings ArticleDOI
Photon pair generation using silicon photonic microring and hybrid laser
Xiaoxi Wang,Chaoxuan Ma,Ranjeet Kumar,Pierre Doussiere,Richard Jones,Haisheng Rong,Shayan Mookherjea +6 more
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TLDR
Using all silicon photonic components, including an electrically-pumped hybrid silicon laser and a high-Q ring resonator, photon pairs with non-classical correlations were generated at room temperature near 1310 nm wavelengths.Abstract:
Using all silicon photonic components, including an electrically-pumped hybrid silicon laser and a high-Q ring resonator, photon pairs with non-classical correlations were generated at room temperature near 1310 nm wavelengths.read more
Citations
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Silicon Photonic Entangled Photon-Pair and Heralded Single Photon Generation with CAR $>$ 12,000 and $g^{(2)}(0)<$ 0.006
TL;DR: In this paper, the authors report measurements of time-frequency entangled photon pairs and heralded single photons at 1550nm wavelengths generated using a microring resonator pumped optically by a diode laser.
Journal ArticleDOI
Simultaneous dual-band entangled photon pair generation using a silicon photonic microring resonator
Chaoxuan Ma,Shayan Mookherjea +1 more
TL;DR: In this article, a simple, appropriately designed silicon microring device was proposed to generate high quality, high-brightness photon pairs at both the 1310 and 1550 nm wavelength bands.
References
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Journal ArticleDOI
1.5-μm band quantum-correlated photon pair generation in dispersion-shifted fiber: suppression of noise photons by cooling fiber
Hiroki Takesue,Kyo Inoue +1 more
TL;DR: The characteristics of quantum-correlated photon pair generation in a DSF cooled by liquid nitrogen is described and the number of noise photons was sufficiently suppressed and the ratio of true coincidence to accidental coincidence was increased to ~30.
Journal ArticleDOI
Telecommunications-band heralded single photons from a silicon nanophotonic chip
Marcelo Davanco,Jun Rong Ong,Andrea Bahgat Shehata,Alberto Tosi,Imad Agha,Solomon Assefa,Fengnian Xia,William M. J. Green,Shayan Mookherjea,Kartik Srinivasan +9 more
TL;DR: In this article, the authors demonstrate room temperature heralded single photon generation in a CMOS-compatible silicon nanophotonic device using a coupled resonator optical waveguide with a nonlinearity coefficient γeff≈4100 W−1 m−1 at telecommunications wavelengths.
Journal ArticleDOI
On-chip low loss heralded source of pure single photons
Justin B. Spring,Patrick S. Salter,Benjamin J. Metcalf,Peter C. Humphreys,Merritt Moore,Nicholas Thomas-Peter,Marco Barbieri,Xian-Min Jin,Nathan K. Langford,W. Steven Kolthammer,Martin J. Booth,Ian A. Walmsley +11 more
TL;DR: This work demonstrates a promising solution: generation of heralded single photons in a silica photonic chip by spontaneous four-wave mixing, and calculates that similar high-heralded-purity output can be obtained from visible to telecom spectral regions using this approach.
Proceedings ArticleDOI
Demonstration of a High Speed 4-Channel Integrated Silicon Photonics WDM Link with Hybrid Silicon Lasers
Andrew Alduino,Ling Liao,Richard Jones,Mike Morse,Brian H. Kim,Wei-Zen Lo,Juthika Basak,Brian R. Koch,Hai-Feng Liu,Haisheng Rong,Matthew N. Sysak,Christine Krause,Rushdy Saba,Dror Lazar,Lior Horwitz,Roi Bar,Stas Litski,Ansheng Liu,Kevin Sullivan,Olufemi I. Dosunmu,Neil Na,Tao Yin,Frederick Haubensack,I-Wei Hsieh,John Heck,Robert Beatty,Hyundai Park,Jock Bovington,Simon S. Lee,Hat Nguyen,Hinmeng Au,Katie Nguyen,Priya Merani,Mahtab Hakami,Mario J. Paniccia +34 more
TL;DR: In this paper, a 4λ×10Gbps CWDM link integrating optical components, electronics and packaging technologies required for system integration is reported, and further demonstration of the link operating at 50Gbps and 4λ × 12.5Gbps, respectively, is shown.
Journal ArticleDOI
Optimizing photon-pair generation electronically using a p-i-n diode incorporated in a silicon microring resonator
TL;DR: In this paper, a simple and effective all-electronic technique for finding the optically pumped photon-pair source is presented, which is based on spontaneous four-wave mixing.