Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
EMD, LQE, OPE, CPM, R |
2018-08-23 13:05 |
Hokkaido |
Otaru Camber of Commerce & Industry |
Study on multiscale measurement and health monitoring system using optical fiber sensor(2)
-- Design of loss variation measurement sensor for branched fibers -- Kentaro Matsuda, ryota Kuramochi, Takaaki Endo, Ryo Nagase (CIT) R2018-17 EMD2018-20 CPM2018-20 OPE2018-47 LQE2018-36 |
[more] |
R2018-17 EMD2018-20 CPM2018-20 OPE2018-47 LQE2018-36 pp.1-4 |
EMD, LQE, OPE, CPM, R |
2018-08-23 13:30 |
Hokkaido |
Otaru Camber of Commerce & Industry |
CFRP Acoustic Emission sensing technic using optical fiber (2) Katsuki Suenaga, Kentaro Matsuda, Ryo Nagase (CIT) R2018-18 EMD2018-21 CPM2018-21 OPE2018-48 LQE2018-37 |
[more] |
R2018-18 EMD2018-21 CPM2018-21 OPE2018-48 LQE2018-37 pp.5-8 |
EMD, LQE, OPE, CPM, R |
2018-08-23 13:55 |
Hokkaido |
Otaru Camber of Commerce & Industry |
Study on the Fiber-Optic Sensing Technique of Solution Consistency Measurement Yusuke Aoki (CIT), Hiroyuki Horiki (Hyson), Ryo Nagase (CIT) R2018-19 EMD2018-22 CPM2018-22 OPE2018-49 LQE2018-38 |
In order to manage the concentration of the aqueous solution, a method of sampling and analyzing the aqueous solution ha... [more] |
R2018-19 EMD2018-22 CPM2018-22 OPE2018-49 LQE2018-38 pp.9-13 |
EMD, LQE, OPE, CPM, R |
2018-08-23 14:30 |
Hokkaido |
Otaru Camber of Commerce & Industry |
Study on high precision vibration sensing technique using Fabry-Perot interferometer with optical fibers Kaoru Kuribayashi, Yuya Harada, Ryo Nagase (CIT), Satoru Wada (KURAHASHI INDUSTRIES CO.,LTD. SEISMIC INSTRUMENTS GROUP), Akio Kobayashi (TOKYO SOKUSHIN CO.,LTD.) R2018-20 EMD2018-23 CPM2018-23 OPE2018-50 LQE2018-39 |
We constructed the Fabry-Perot interferometer using a polished ferrule endface attached to single-mode fiber facing to a... [more] |
R2018-20 EMD2018-23 CPM2018-23 OPE2018-50 LQE2018-39 pp.15-20 |
EMD, LQE, OPE, CPM, R |
2018-08-23 14:55 |
Hokkaido |
Otaru Camber of Commerce & Industry |
Study on precise measurement of the vibration using Fabry-Perot interferometer with optical fibers Yuya Harada, Kaoru Kuribayashi, Ryo Nagase (CIT), Satoru Wada (KURAHASHI INDUSTRIES CO.,LTD. SEISMIC INSTRUMENTS GROUP), Akio Kobayashi (TOKYO SOKUSIN CO.,LTD.) R2018-21 EMD2018-24 CPM2018-24 OPE2018-51 LQE2018-40 |
[more] |
R2018-21 EMD2018-24 CPM2018-24 OPE2018-51 LQE2018-40 pp.21-24 |
EMD, LQE, OPE, CPM, R |
2018-08-23 15:20 |
Hokkaido |
Otaru Camber of Commerce & Industry |
Coherence Length Extension Effect of Swept Light Source by Constant Output Power Control Masahiro Ueno, Mingchen Chen, Seiji Toyoda, Takashi Sakamoto, Yuichi Akage, Joji Yamaguchi, Tadashi Sakamoto (NTT) R2018-22 EMD2018-25 CPM2018-25 OPE2018-52 LQE2018-41 |
Swept source optical coherence tomography (SS-OCT) is a technique to capture tomographic images of moving objects at hig... [more] |
R2018-22 EMD2018-25 CPM2018-25 OPE2018-52 LQE2018-41 pp.25-30 |
EMD, LQE, OPE, CPM, R |
2018-08-23 15:55 |
Hokkaido |
Otaru Camber of Commerce & Industry |
[Invited Talk]
Highly reliable memory system realizing long-term preservation of digital data
-- The background, issues and the prospects -- Toshio Kobayashi (SIT) R2018-23 EMD2018-26 CPM2018-26 OPE2018-53 LQE2018-42 |
Digital technology based on semiconductor technology has become indispensable technology for personal living and social ... [more] |
R2018-23 EMD2018-26 CPM2018-26 OPE2018-53 LQE2018-42 pp.31-36 |
EMD, LQE, OPE, CPM, R |
2018-08-24 09:05 |
Hokkaido |
Otaru Camber of Commerce & Industry |
[Invited Talk]
Standardization trend for high speed optical transceivers and optical components Hideki Isono (FOC) R2018-24 EMD2018-27 CPM2018-27 OPE2018-54 LQE2018-43 |
[more] |
R2018-24 EMD2018-27 CPM2018-27 OPE2018-54 LQE2018-43 pp.37-40 |
EMD, LQE, OPE, CPM, R |
2018-08-24 09:50 |
Hokkaido |
Otaru Camber of Commerce & Industry |
Study on design method of Chebychev wavelength filter based on microring resonator using digital filter design method Mao Yamauchi, Takuya Komatsubara (Yokohama National Univ.), Yasuo Kokubun (Chubu Univ.), Taro Arakawa (Yokohama National Univ.) R2018-25 EMD2018-28 CPM2018-28 OPE2018-55 LQE2018-44 |
[more] |
R2018-25 EMD2018-28 CPM2018-28 OPE2018-55 LQE2018-44 pp.41-46 |
EMD, LQE, OPE, CPM, R |
2018-08-24 10:15 |
Hokkaido |
Otaru Camber of Commerce & Industry |
InP template layer thickness dependence of GaInAsP-InP layer grown on directly-bonded InP/Si substrate Masaki Aikawa, Natsuki Hayasaka, Xu Han, Masaki Matsuura, Periyanayagam Gandhi Kallarasan, Kazuki Uchida, Hirokazu Sugiyama, Hiromu Yada, Kazuhiko Shimomura (Sophia Univ.) R2018-26 EMD2018-29 CPM2018-29 OPE2018-56 LQE2018-45 |
[more] |
R2018-26 EMD2018-29 CPM2018-29 OPE2018-56 LQE2018-45 pp.47-52 |
EMD, LQE, OPE, CPM, R |
2018-08-24 10:50 |
Hokkaido |
Otaru Camber of Commerce & Industry |
Compact and low power consumption mid-IR quantum cascade laser development and gas sensing application Makoto Murata, Hiroyuki Yoshinaga, Masaki Migita, Hiroki Mori, Yukihiro Tsuji, Takashi Kato, Jun-ichi Hashimoto, Mitsuru Ekawa, Yasuhiro Iguchi, Tsukuru Katsuyama (Sumitomo Electric) R2018-27 EMD2018-30 CPM2018-30 OPE2018-57 LQE2018-46 |
Mid-infrared sensing with a quantum cascade laser (QCL) as a light source is expected to offer high sensitivity, short m... [more] |
R2018-27 EMD2018-30 CPM2018-30 OPE2018-57 LQE2018-46 pp.53-56 |
EMD, LQE, OPE, CPM, R |
2018-08-24 11:15 |
Hokkaido |
Otaru Camber of Commerce & Industry |
Recent progress of high output power THz quantum cascade lasers Tsung-Tse Lin, Ke Wang, Li Wang, Hideki Hirayama (RIKEN) R2018-28 EMD2018-31 CPM2018-31 OPE2018-58 LQE2018-47 |
Terahertz quantum cascade lasers (THz QCLs) are theoretically analyzed based on the non-equilibrium Green’s function (NE... [more] |
R2018-28 EMD2018-31 CPM2018-31 OPE2018-58 LQE2018-47 pp.57-61 |
EMD, LQE, OPE, CPM, R |
2018-08-24 11:40 |
Hokkaido |
Otaru Camber of Commerce & Industry |
Construction of plasmonic infrared light source Yoshiaki Nishijima (YNU) R2018-29 EMD2018-32 CPM2018-32 OPE2018-59 LQE2018-48 |
[more] |
R2018-29 EMD2018-32 CPM2018-32 OPE2018-59 LQE2018-48 pp.63-66 |
EMD, LQE, OPE, CPM, R |
2018-08-24 13:15 |
Hokkaido |
Otaru Camber of Commerce & Industry |
Development of a Multi-Functional Incoherent Light Source
-- Integrated Quantum Effect Super-Luminescent Device (IQSLD) -- Akira Higuchi, Toru Hirohata, Kazunori Tanaka, Kazuyoshi Kuroyanagi, Masamichi Yamanishi (HPK) R2018-30 EMD2018-33 CPM2018-33 OPE2018-60 LQE2018-49 |
Development of multi-functional incoherent light sources (Integrated Quantum effect Super-Luminescent Device; IQSLD) has... [more] |
R2018-30 EMD2018-33 CPM2018-33 OPE2018-60 LQE2018-49 pp.67-71 |
EMD, LQE, OPE, CPM, R |
2018-08-24 13:40 |
Hokkaido |
Otaru Camber of Commerce & Industry |
Oscillation chracteristics of a narrow linewidth DFB LD array with an optical feedback method Keisuke Kasai, Masataka Nakazawa (Tohoku Univ.) R2018-31 EMD2018-34 CPM2018-34 OPE2018-61 LQE2018-50 |
We describe a 1.5 m, narrow linewidth, high output power wavelength tunable LD with a self-optical feedback circuit. By... [more] |
R2018-31 EMD2018-34 CPM2018-34 OPE2018-61 LQE2018-50 pp.73-78 |
EMD, LQE, OPE, CPM, R |
2018-08-24 14:05 |
Hokkaido |
Otaru Camber of Commerce & Industry |
Demonstration of All-Optical Logic Gate Device using MQW-SOA and 10Gbps XNOR Operation Akashi Yota, Shin'e Matsui, Shohei Isawa (Waseda Univ.), Atsushi Matsumoto (NICT), Yuichi Matsushima, Hiroshi Ishikawa, Katsuyuki Utaka (Waseda Univ.) R2018-32 EMD2018-35 CPM2018-35 OPE2018-62 LQE2018-51 |
We proposed all-optical logic gate device as a label recognition device for all optical packet networks, which was integ... [more] |
R2018-32 EMD2018-35 CPM2018-35 OPE2018-62 LQE2018-51 pp.79-82 |
EMD, LQE, OPE, CPM, R |
2018-08-24 14:30 |
Hokkaido |
Otaru Camber of Commerce & Industry |
Application of Si-Photonics-Based Quantum Dot External cavity Tunable Laser for the 1um-band Atsushi Matsumoto, Toshimasa Umezawa, Naokatsu Yamamoto (NICT), Tomohiro Kita (Waseda Univ.) R2018-33 EMD2018-36 CPM2018-36 OPE2018-63 LQE2018-52 |
In recent years, information and communication traffic have exponentially increased. So far, we have paid attention not ... [more] |
R2018-33 EMD2018-36 CPM2018-36 OPE2018-63 LQE2018-52 pp.83-86 |
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