Подписаться
Yuya Yonezu
Yuya Yonezu
NTT Basic Research Laboratories, NTT Corporation
Подтвержден адрес электронной почты в домене hco.ntt.co.jp
Название
Процитировано
Процитировано
Год
Efficient single-photon coupling from a nitrogen-vacancy center embedded in a diamond nanowire utilizing an optical nanofiber
Y Yonezu, K Wakui, K Furusawa, M Takeoka, K Semba, T Aoki
Scientific reports 7 (1), 12985, 2017
232017
Evaluation of graphene optical nonlinearity with photon-pair generation in graphene-on-silicon waveguides
Y Yonezu, R Kou, H Nishi, T Tsuchizawa, K Yamada, T Aoki, A Ishizawa, ...
Optics Express 27 (21), 30262-30271, 2019
162019
Simple method for fabrication of diamond nanowires by inductively coupled plasma reactive ion etching
K Wakui, Y Yonezu, T Aoki, M Takeoka, K Semba
Japanese journal of applied physics 56 (5), 058005, 2017
82017
Observing a phase transition in a coherent Ising machine
H Takesue, Y Yamada, K Inaba, T Ikuta, Y Yonezu, T Inagaki, T Honjo, ...
Physical Review Applied 19 (3), L031001, 2023
42023
Scalable implementation of mutually unbiased bases for -dimensional quantum key distribution
T Ikuta, S Akibue, Y Yonezu, T Honjo, H Takesue, K Inoue
Physical Review Research 4 (4), L042007, 2022
42022
10-GHz-clock time-multiplexed non-degenerate optical parametric oscillator network with a variable planar lightwave circuit interferometer
Y Yonezu, K Inaba, Y Yamada, T Ikuta, T Inagaki, T Honjo, H Takesue
Optics Letters 48 (21), 5787-5790, 2023
12023
High-performance, adiabatically nanotapered fiber-chip couplers in silicon at 2 microns wavelength
DA Sulway, Y Yonezu, LM Rosenfeld, P Jiang, T Aoki, JW Silverstone
Optics Express 31 (16), 25350-25358, 2023
12023
Computation with degenerate optical parametric oscillator networks
H Takesue, T Inagaki, K Inaba, T Ikuta, Y Yamada, Y Yonezu, T Honjo
2022 27th OptoElectronics and Communications Conference (OECC) and 2022 …, 2022
12022
ナノ光ファイバーとダイヤモンドナノワイヤの高効率結合系
米津佑哉, 和久井健太郎, 仙場浩一, 青木隆朗
日本物理学会講演概要集 71.2, 481-481, 2016
12016
Efficient Coupling System between Optical Nanofiber and Diamond Nanowire
Y Yonezu, K Wakui, K Semba, T Aoki
IEICE Technical Report; IEICE Tech. Rep., 2016
12016
反応性イオンエッチングによるダイヤモンドナノワイヤの作製
和久井健太郎, 米津佑哉, 青木隆朗, 仙場浩一
電子情報通信学会技術研究報告; 信学技報, 0
1
Measuring Method for Optical Nonlinearity of Two-Dimensional Material
Y Yonezu, A Ishizawa, H Nishi, T Tsuchizawa, N Matsuda, R Takahashi, ...
US Patent App. 18/245,430, 2024
2024
Coherent Ising machine as a thermodynamic system
H Takesue, Y Yamada, K Inaba, T Ikuta, Y Yonezu, T Inagaki, T Honjo
2023 IEEE Photonics Society Summer Topicals Meeting Series (SUM), 1-2, 2023
2023
Ultra-low loss mid-infrared frequency conversion in silicon-on-insulator waveguides
DA Sulway, Y Yonezu, LM Rosenfeld, P Jiang, T Aoki, JW Silverstone
The European Conference on Lasers and Electro-Optics, ck_6_4, 2023
2023
Low-loss adiabatic silicon chip-to-fibre couplers in the mid-infrared and applications to nonlinear optics
DA Sulway, Y Yonezu, LM Rosenfeld, P Jiang, JG Rarity, T Aoki, ...
Conference on Lasers and Electro-Optics/Pacific Rim, CFA12E_04, 2022
2022
Scalable Preparation and Measurement of 2N-dimensional Time-bin States in (2N+ 1) Mutually Unbiased Bases
T Ikuta, S Akibue, Y Yonezu, T Honjo, H Takesue, K Inoue
CLEO: QELS_Fundamental Science, FTu5A. 7, 2022
2022
Simulating Phase Transition in Two-Dimensional Ising Model on Coherent Ising Machine
H Takesue, Y Yamada, K Inaba, T Ikuta, Y Yonezu, T Inagaki, T Honjo, ...
CLEO: Science and Innovations, SF4F. 4, 2022
2022
光パラメトリック発振器ネットワークを用いた計算機
武居弘樹, 稲垣卓弘, 稲葉謙介, 生田拓也, 山田康博, 米津佑哉, ...
電子情報通信学会技術研究報告; 信学技報 122 (12), 67-69, 2022
2022
Computation with optical parametric oscillator networks
H Takesue, T Inagaki, K Inaba, T Ikuta, Y Yamada, Y Yonezu, T Honjo
電子情報通信学会技術研究報告 (Web) 122 (12 (SR2022 1-18)), 67-69, 2022
2022
Engineering low-loss silicon quantum photonics in the mid-infrared
DA Sulway, LM Rosenfeld, Y Yonezu, QMB Palmer, P Jiang, T Aoki, ...
European Quantum Electronics Conference, jsi_p_5, 2021
2021
В данный момент система не может выполнить эту операцию. Повторите попытку позднее.
Статьи 1–20