Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
OPE, LQE, OCS |
2018-10-18 09:35 |
Saga |
|
Fabrication and Evaluation for Polymer Waveguide Coupler Devices Using the Imprint Method Fukino Nakazaki, Takaaki Ishigure (Keio University) OCS2018-28 OPE2018-64 LQE2018-53 |
With the spread of cloud computing services, optical links based on multimode fibers (MMFs) enabling high bandwidth dens... [more] |
OCS2018-28 OPE2018-64 LQE2018-53 pp.1-6 |
OPE, LQE, OCS |
2018-10-18 10:00 |
Saga |
|
Fabrication for Y-branched multimode polymer optical waveguides using the Mosquito Method Tomoki Nakayama, Takaaki Ishigure (Keio Univ.) OCS2018-29 OPE2018-65 LQE2018-54 |
Y-branched polymer optical waveguides for a multiplexing device in WDM (Wavelength Division Multiplexing) multimode opti... [more] |
OCS2018-29 OPE2018-65 LQE2018-54 pp.7-12 |
OPE, LQE, OCS |
2018-10-18 10:25 |
Saga |
|
Analysis of I/O Grating Coupler for Organic Membrane Photonic Integrated Circuits (OMPICs) Keisuke Masuda, Tomohiro Amemiya, Hibiki Kagami, Makoto Tanaka, Nobuhiko Nishiyama, Shigehisa Arai (Tokyo Tech) OCS2018-30 OPE2018-66 LQE2018-55 |
(Advance abstract in Japanese is available) [more] |
OCS2018-30 OPE2018-66 LQE2018-55 pp.13-18 |
OPE, LQE, OCS |
2018-10-18 11:00 |
Saga |
|
C+L-band wavelength selective switchby alternating arrangement on LCOS Kazunori Seno, Keita Yamaguchi, Satomi Katayose, Kenya Suzuki, Toshikazu Hashimoto (NTT) OCS2018-31 OPE2018-67 LQE2018-56 |
The increase in communications network traffic has led to a demand for higher transmission capacity. To meet this demand... [more] |
OCS2018-31 OPE2018-67 LQE2018-56 pp.19-24 |
OPE, LQE, OCS |
2018-10-18 11:25 |
Saga |
|
Transmission of 8 × 32-Gbaud 16-QAM WDM Signals through an SOA-Integrated Lossless Silicon Photonics Switch Ryotaro Konoike, Keijiro Suzuki, Takashi Inoue (AIST), Takeshi Matsumoto, Teruo Kurahashi, Ayahito Uetake, Kazumasa Takabayashi, Suguru Akiyama, Shigeaki Sekiguchi (Fujitsu Lab.), Shu Namiki, Hitoshi Kawashima, Kazuhiro Ikeda (AIST) OCS2018-32 OPE2018-68 LQE2018-57 |
We experimentally demonstrate 8-ch., 32-Gbaud 16-QAM WDM signals transmission through a lossless 4 × 4 silicon photonics... [more] |
OCS2018-32 OPE2018-68 LQE2018-57 pp.25-28 |
OPE, LQE, OCS |
2018-10-18 13:10 |
Saga |
|
[Memorial Lecture]
Research and development of high-density integrated silica-based planar lightwave circuits Senichi Suzuki (NEL) OCS2018-33 OPE2018-69 LQE2018-58 |
Silica-based planar lightwave circuits (PLCs) with highly design flexibility and low loss characteristics have provided ... [more] |
OCS2018-33 OPE2018-69 LQE2018-58 pp.29-33 |
OPE, LQE, OCS |
2018-10-18 14:00 |
Saga |
|
53.2GBaud PAM4 Operation of EML TOSA Employing High Speed FPC Interface Mizuki Shirao, Seiki Nakamura, Asami Uchiyama, Kiyotomo Hasegawa (Mitsubishi) |
(Advance abstract in Japanese is available) [more] |
|
OPE, LQE, OCS |
2018-10-18 14:35 |
Saga |
|
OCS2018-34 OPE2018-70 LQE2018-59 |
Transistor Laser (TL) has multiple modulation methods by a combination of terminal connection because it has three elect... [more] |
OCS2018-34 OPE2018-70 LQE2018-59 pp.35-40 |
OPE, LQE, OCS |
2018-10-18 15:00 |
Saga |
|
Study on our all-optical-gate-type mode-locked laser's ring-laser-cavity configuration for modelling and then enhancing its output quantum-conversion efficiency Kodai Ishida, Kengo Okano, Kyosuke Nagasaka, Batkhuyag Ganbat, Yukihiro Ishii, Makoto Takeshita, Yoshiyasu Ueno (UEC) OCS2018-35 OPE2018-71 LQE2018-60 |
We are expecting that mode-locked lasers are potentially one- or two-step more functional light sources when they are ad... [more] |
OCS2018-35 OPE2018-71 LQE2018-60 pp.41-46 |
OPE, LQE, OCS |
2018-10-18 15:25 |
Saga |
|
Characteristics of Spin Polarization Modulation in VCSELs for High-Speed Operation Nobuhide Yokota, Kunpei Nisaka (Tohoku Univ.), Kazuhiro Ikeda (AIST), Hiroshi Yasaka (Tohoku Univ.) OCS2018-36 OPE2018-72 LQE2018-61 |
High-speed vertical-cavity surface-emitting lasers (VCSELs) with low cost and low energy consumption are required to cop... [more] |
OCS2018-36 OPE2018-72 LQE2018-61 pp.47-50 |
OPE, LQE, OCS |
2018-10-18 16:00 |
Saga |
|
[Invited Talk]
Fiber-optic Frequency Shifting of THz-range WDM Signal using Orthogonal Pump-signal Polarization Configuration Tomoyuki Kato, Shigeki Watanabe, Takahito Tanimura (Fujitsu Lab), Robert Elschner, Carsten Schmidt-Langhorst, Colja Schubert (HHI), Takeshi Hoshida (Fujitsu Lab) OCS2018-37 OPE2018-73 LQE2018-62 |
We propose a nonlinear fiber-based optical frequency shifter using two CW pumps orthogonally polarized to optical signal... [more] |
OCS2018-37 OPE2018-73 LQE2018-62 pp.51-54 |
OPE, LQE, OCS |
2018-10-18 16:35 |
Saga |
|
Phase Measurement Method for Millimeter-wave 3-tone Signal using Electro-optic Frequency Conversion Takashi Mori, Shigenori Mattori (Anritsu) OCS2018-38 OPE2018-74 LQE2018-63 |
A phase measurement method for millimeter-wave 3-tone signal has been proposed using electro-optic frequency conversion ... [more] |
OCS2018-38 OPE2018-74 LQE2018-63 pp.55-59 |
OPE, LQE, OCS |
2018-10-18 17:00 |
Saga |
|
Characteristics of phase-sensitive amplification for a chirped pulse Kyo Inoue (Osaka Univ.) OCS2018-39 OPE2018-75 LQE2018-64 |
(Advance abstract in Japanese is available) [more] |
OCS2018-39 OPE2018-75 LQE2018-64 pp.61-64 |
OPE, LQE, OCS |
2018-10-19 09:30 |
Saga |
|
A Design of Low MDL Scrambling-type PLC 6 Mode Multi/ Demultiplexer Motoki Shirata, Misa Kudo, Takeshi Fujisawa (Hokkaidou Univ.), Taiji Sakamoto, Takashi Matsui, Kyozo Tsujikawa, Kazuhide Nakajima (NTT), Kunimasa Saitoh (Hokkaidou Univ.) OCS2018-40 OPE2018-76 LQE2018-65 |
The design of four-, six-, and eight-mode scrambling-type mode multi/demultiplexers (mode scramblers) together with the ... [more] |
OCS2018-40 OPE2018-76 LQE2018-65 pp.65-70 |
OPE, LQE, OCS |
2018-10-19 09:55 |
Saga |
|
Fundamental investigation of mode maintaining strongly coupled waveguide Kantaro Fujimoto, Kiichi Hamamoto, Haisong Jiang (Kyushu Univ.) OCS2018-41 OPE2018-77 LQE2018-66 |
Mode division multiplexing (MDM) has been widely researched to realize much higher transmission capacity. As mode crosst... [more] |
OCS2018-41 OPE2018-77 LQE2018-66 pp.71-74 |
OPE, LQE, OCS |
2018-10-19 10:20 |
Saga |
|
Si-based OAM MUX/DEMUX Module Tomohiro Amemiya (Tokyo Tech), Tomoya Yoshida, Yuki Atsumi (AIST), Nobuhiko Nishiyama, Yasuyuki Miyamoto (Tokyo Tech), Yoichi Sakakibara (AIST), Shigehisa Arai (Tokyo Tech) OCS2018-42 OPE2018-78 LQE2018-67 |
(Advance abstract in Japanese is available) [more] |
OCS2018-42 OPE2018-78 LQE2018-67 pp.75-80 |
OPE, LQE, OCS |
2018-10-19 10:55 |
Saga |
|
Mode Crosstalk Analysis for Active-MMI Mode-Selective Light Source Tomotaka Mori, Bingzhou Hong, Haisong Jiang, Kiichi Hamamoto (Kyushu Univ.) OCS2018-43 OPE2018-79 LQE2018-68 |
Due to recent advancing of AI and big data, interconnection of supercomputer may exceed transmission capacity over Tbps ... [more] |
OCS2018-43 OPE2018-79 LQE2018-68 pp.81-86 |
OPE, LQE, OCS |
2018-10-19 11:20 |
Saga |
|
Thin Core (100nm) Silicon High-mesa Waveguide for High Quality Breath Sensors Yu Han, Wenying Li, Haisong Jiang, Kiichi Hamamoto (Kyushu University) OCS2018-44 OPE2018-80 LQE2018-69 |
(Advance abstract in Japanese is available) [more] |
OCS2018-44 OPE2018-80 LQE2018-69 pp.87-92 |
OPE, LQE, OCS |
2018-10-19 13:05 |
Saga |
|
Optimization of signal amplitudes for dynamic range of analog-to-digital convertor in digital coherent reception of ultra-high QAM optical signals Yasuhiro Kawabata, Koji Igarashi (Osaka Univ.) OCS2018-45 OPE2018-81 LQE2018-70 |
In the digital coherent reception of ultra-high quadrature amplitude modulation (QAM) optical signals, the received ampl... [more] |
OCS2018-45 OPE2018-81 LQE2018-70 pp.93-97 |
OPE, LQE, OCS |
2018-10-19 13:30 |
Saga |
|
Performance evaluation of spectrally-synthesized coherent reception for constellation monitoring of pseudo random quadrature phase shift keying optical signals Naoki Urakawa, Koji Igarashi (Osaka Univ.) OCS2018-46 OPE2018-82 LQE2018-71 |
In our proposed spectrally-synthesized coherent reception for measuring constellation maps of periodical optical signals... [more] |
OCS2018-46 OPE2018-82 LQE2018-71 pp.99-104 |