Print edition: ISSN 0913-5685 Online edition: ISSN 2432-6380
[TOP] | [2015] | [2016] | [2017] | [2018] | [2019] | [2020] | [2021] | [Japanese] / [English]
LQE2018-20
Development of OAM sorter based on geometric transformation in optics
Keisaku Yamane, Isamu Wakisaka, Yuho Watanabe (Hokkaido Univ.), Kazuhiko Oka (Hirosaki Univ.), Yasunori Toda, Ryuji Morita (Hokkaido Univ.)
pp. 1 - 4
LQE2018-21
Study on system configuration for 10W class optical wireless power transmission between fixed equipments
Yuki Katsuta, Tomoyuki Miyamoto (FIRST, Tokyo Tech)
pp. 5 - 8
LQE2018-22
Reduction of threading dislocations and antiphase domains in MOVPE-grown GaAs on Si(100)
Ryo Nakao, Tomonari Sato, Hiroki Sugiyama, Shinji Matsuo (NTT)
pp. 9 - 12
LQE2018-23
Hybrid-Integration Technologies of InP-SOA on Silicon Optical Platform
Takeshi Matsumoto, Teruo Kurahashi (Fujitsu Lab), Ryotaro Konoike, Keijiro Suzuki, Ken Tanizawa (AIST), Ayahito Uetake, Kazumasa Takabayashi (Fujitsu Lab), Kazuhiro Ikeda, Hitoshi Kawashima (AIST), Suguru Akiyama, Shigeaki Sekiguchi (Fujitsu Lab)
pp. 13 - 16
LQE2018-24
[Invited Talk]
What will be a compelling technology for beyond-400 Gbps systems; Devices vs. Packaging
-- Assembly Techniques to Realize Integrated Transmitter Optical Modules for Today's and Tomorrow's Large Capacity Application --
Keita Mochizuki (Mitsubishi Electric Corp.)
pp. 17 - 20
LQE2018-25
[Invited Talk]
What will be a compelling technology for beyond-400 G systems; Devices vs. Packaging
-- Laser chips used in Intra- and inter- Data Centers --
Toshimitsu Kaneko (SUMITOMO ELECTRIC)
pp. 21 - 24
LQE2018-26
[Invited Talk]
What will be a compelling technology for beyond-400 Gbps systems; Devices vs. Packaging
-- Design and assembly techniques of optical receiver module and works in the future --
Nobuo Ohata, Tadayoshi Hata, Yoshiya Sato, Mizuki Shirao, Ryota Fujihara, Syuhei Yamamoto (Mitsubishi Electric)
pp. 25 - 28
LQE2018-27
[Invited Talk]
What will be a compelling technology for beyond-400 Gbps systems; Devices vs. Packaging
-- Progress of InP-based Coherent Receivers and Future Prospect of Photonic Integrated Circuits --
Hideki Yagi, Naoko Inoue (SEI), Takuya Okimoto (SEDI), Takehiko Kikuchi (SEI)
pp. 29 - 32
LQE2018-28
[Invited Talk]
LiNbO3 modulator to realize high speed transmission for long haul application
Yoshitaa Kawashima, Masaharu Doi (FOC)
p. 33
LQE2018-29
[Invited Talk]
Trends in InP-based optical modulator for digital coherent technology
Nobuhiro Kikuchi (NTT)
pp. 35 - 37
LQE2018-30
[Invited Talk]
High performance Si and SiGe based optical modulator and its application to optical integrated circuit
Junichi Fujikata, Masataka Noguchi, Shigeki Takahashi, Kazuhiko Kurata (PETRA), Mitsuru Takenaka (Univ. of Tokyo), Takahiro Nakamura (PETRA)
pp. 39 - 42
LQE2018-31
[Invited Talk]
Perspective of optical modulator using Si hybrid MOS phase shifter
Mitsuru Takenaka, Shinichi Takagi (Univ. Tokyo)
pp. 43 - 46
LQE2018-32
[Invited Talk]
100Gbit/s Optical Modulatior using EO polymer
Shiyoshi Yokoyama (Kyushu Univ.)
pp. 47 - 49
LQE2018-33
A study on figure of merit of optical modulator
Yuya Yamaguchi, Atsushi Kanno, Naokatsu Yamamoto (NICT), Tetsuya Kawanishi (Waseda Univ.)
pp. 51 - 54
LQE2018-34
Vector modulation using electro-absorption modulator integrated laser diode
Keizo Inagaki (NICT), Praimezt Mekbungwan, Ukrit Mankong (Chiang Mai Univ.), Tetsuya Kawanishi (Waseda Univ.)
pp. 55 - 59
LQE2018-35
Ultra-high bandwidth InP modulator co-assembled with high-speed electronics
Yoshihiro Ogiso, Josuke Ozaki, Shinsuke Nakano, Yuta Ueda, Hitoshi Wakita (NTT)
pp. 61 - 64
Note: Each article is a technical report without peer review, and its polished version will be published elsewhere.