Light-Induced Self-Written Optical Waveguides(Polymer and Connection Devices,<Special Section>Recent Advances in Integrated Photonic Devices)
スポンサーリンク
概要
- 論文の詳細を見る
Light-induced self-written (LISW) technology is a unique and simple method of forming low-loss 3-dimensional (3-D) optical circuits in photopolymers using radiation from an optical fiber. Since this technology is applicable to almost all kinds of optical fiber and optical wiring, many studies have been carried in a number of different organizations on the applications of this technology. The technology helps simplify optical interconnections, and it is expected that it will reduce the cost of mounting optical devices. In this paper, we introduce LISW technology and report on related studies developed in our research group.
- 社団法人電子情報通信学会の論文
- 2007-05-01
著者
-
Yamashita Tatsuya
Optical System And Device Lab. Toyota Central R & D Labs. Inc.
-
松井 崇行
東北大多元研
-
松井 崇行
(株)豊田中央研究所
-
KAGAMI Manabu
Optical System and Device Lab., Toyota Central R & D Labs., Inc.
-
YONEMURA Masatoshi
Optical System and Device Lab., Toyota Central R & D Labs., Inc.
-
MATSUI Takayuki
Optical System and Device Lab., Toyota Central R & D Labs., Inc.
-
Kagami Manabu
Optical System And Device Lab. Toyota Central R & D Labs. Inc.
-
Matsui Takayuki
Optical System And Device Lab. Toyota Central R & D Labs. Inc.
-
Yonemura Masatoshi
Optical System And Device Lab. Toyota Central R & D Labs. Inc.
-
Matsui Takayuki
Toyota Central R&d Labs. Inc.
-
松井 崇行
Toyota Central R&D Labs., Inc.
-
KAGAMI Manabu
Optical Device & System Lab., Information and Electronics Systems Div., Toyota Central R&D Labs., Inc.
関連論文
- 機能性ポリマー光回路作製プロセス
- シングルモード自己形成法による曲線光導波路(ポリマー光回路,光機能性材料,一般)
- C-3-69 ナノホールアレイを用いた負屈折平面プリズムのナノ加工(パッシブデバイス(2),C-3.光エレクトロニクス,一般セッション)
- C-3-25 静電容量複合型表面プラズモン共鳴式センサ(光記録・計測(1),C-3.光エレクトロニクス,一般セッション)
- Light-Induced Self-Written Optical Waveguides(Polymer and Connection Devices,Recent Advances in Integrated Photonic Devices)
- Improvement in Positioning Accuracy of Light-Induced Self-Written Polymeric Optical Waveguide Using an "Optical Solder" Effect
- Improvement in Positioning Accuracy of Light-Induced Self-Written Polymeric Optical Waveguide Using an “Optical Solder” Effect
- 接合型ポリマー光導波路の作製(バイオテクノロジー,有機エレクトロニクス,界面,一般)
- Nanophotonics Based on Semiconductor-Photonic Crystal/Quantum Dot and Metal-/Semiconductor-Plasmonics
- Laser Radar Receiver Performance Improvement by Inter Symbol Interference