Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
NS, PN, OCS (Joint) |
2024-06-06 11:15 |
Nagasaki |
(Primary: On-site, Secondary: Online) |
Modeling of Forward-Pumped Raman Amplification in Multiband WDM Optical Transmission Yurie Matsuyama, Yuta Suzuki, Morihiko Ota, Takefumi Oguma (NEC) |
(To be available after the conference date) [more] |
|
EMT, PN, MWPTHz, IEE-EMT [detail] |
2024-01-23 14:45 |
Kyoto |
Kyoto Univ. Yoshida Campus |
Bi-directional-Pumped Distributed Raman Amplification in C and L Bands using Incoherent Pumps with second order Pumps Satoru Ichihara, Shigehiro Takasaka, Norihiro Ohishi, Yasuto Tatamida, Junji Yoshida, Ryuichi Sugizaki, Toshio Kimura (Furukawa Electric) PN2023-65 EMT2023-105 MWPTHz2023-93 |
Raman pump unit composed of wideband semiconductor incoherent optical sources as first-order pumps and conventional pump... [more] |
PN2023-65 EMT2023-105 MWPTHz2023-93 pp.92-96 |
OCS, OFT, IEE-CMN, ITE-BCT (Joint) [detail] |
2023-11-10 13:25 |
Kyoto |
(Primary: On-site, Secondary: Online) |
Gaussian-noise-model-based SNR Estimation in 15.2-THz Bandwidth 400-km Inline-amplified Transmission Kosuke Kimura, Takayuki Kobayashi, Shimpei Shimpei, Masanori Nakamura, Takushi Kazama, Masashi Abe, Takeshi Umeki, Akira Kawai, Fukutaro Hamaoka, Yutaka Miyamoto (NTT) OCS2023-46 |
We demonstrated that mean errors of the SNRs estimated with GN model accounting for SRS were less than 1 dB in 15.2-THz ... [more] |
OCS2023-46 pp.16-19 |
PN |
2023-04-28 13:05 |
Kanagawa |
(Primary: On-site, Secondary: Online) |
[Invited Talk]
Ultra-Wideband WDM transmission based on distributed Raman Amplification Akihide Sano (Ritsumeikan Univ.) PN2023-1 |
UWB-WDM transmission is very promising in order to extend the total capacity of long-haul optical communication systems.... [more] |
PN2023-1 pp.1-5 |
OCS, CS (Joint) |
2022-01-13 14:55 |
Yamaguchi |
Conference room 204A・B at KDDI Ishin-hall (Primary: On-site, Secondary: Online) |
A Study on Maximizing the Number of Accommodated Users for Bus-Type Optical Access Using Distributed Raman Amplification With Asymmetric Power Splitter Ryo Igarashi, Kazutaka Hara, Ryo Koma, Jun-ich Kani, Tomoaki Yoshida (NTT) CS2021-70 |
A bus type optical access network has been proposed to accommodate widely scattered users efficiently. Although the cost... [more] |
CS2021-70 pp.13-18 |
OCS, ITE-BCT, OFT, IEE-CMN [detail] |
2019-11-21 16:45 |
Yamaguchi |
Kaikyo-Messe-Shimonoseki |
Quantum noise spectrum in fiber-based nondegenerate phase-sensitive amplification considering Raman scattering Kyo Inoue (Osaka Univ.) OCS2019-63 |
Wavelength dependence of quantum noise in nondegenerate phase-sensitive amplification in an optical fiber is theoretical... [more] |
OCS2019-63 pp.35-40 |
LQE, LSJ |
2018-05-25 10:55 |
Fukui |
|
Fabrication of nanocavity Raman silicon laser on (100) SOI substrate with a 45 degree rotated top Si layer Yukiko Yamauchi (Osaka Pre Univ.), Makoto Okano (AIST), Susumu Noda (Kyoto Univ.), Yasushi Takahashi (Osaka Pre Univ.) LQE2018-14 |
We have developed silicon Raman lasers based on a high quality-factor (Q) photonic crystal nanocavity which has a potent... [more] |
LQE2018-14 pp.17-20 |
OFT |
2014-05-29 17:05 |
Yamagata |
|
Lump Raman amplification for both 10G-EPON and TWDM-PON Norio Kashima (Shibaura Inst. of Tech.) OFT2014-8 |
We have studied an application of Raman amplification to the existing passive optical networks (PON). We focus on the u... [more] |
OFT2014-8 pp.37-40 |
OFT |
2013-10-24 17:05 |
Nara |
|
Upgrade of passive optical network by hybrid-Raman Amplification Norio Kashima (Shibaura Inst. of Tech.) OFT2013-31 |
We have studied an application of Raman amplification to the existing passive optical networks (PON). We focus on the u... [more] |
OFT2013-31 pp.43-46 |
OFT, OCS (Joint) |
2013-08-22 14:25 |
Hokkaido |
|
Low Similar Splice Loss of Aeff-Enlarged Pure-Silica-Core-Fiber Masaaki Hirano, Yuki Kawaguchi, Tetsuya Haruna, Yoshinori Yamamoto (SEI) OCS2013-37 |
In order to apply high-capacity terrestrial trunk-line in which exponentially growing internet traffic has been transmit... [more] |
OCS2013-37 pp.5-9 |
OFT |
2010-05-28 11:10 |
Hiroshima |
tomo-kouminkan |
Measurement technique of Raman gain efficiency spectrum distribution using two reference fibers Yasuhiro Tsutsumi, Masaharu Ohashi (Osaka Prefecture Univ.) OFT2010-14 |
A new technique for measuring Raman gain efficiency spectrum distribution using an OTDR and two reference fibers is prop... [more] |
OFT2010-14 pp.67-70 |
CS, OCS (Joint) |
2010-01-29 13:15 |
Yamaguchi |
Kaikyo Messe Shimonoseki |
Wideband Wavelength-Flexible All-Optical Signal Regeneration Using Gain-Band Tunable Raman Amplification and Self-Phase-Modulation-Based Spectral Filtering Motoharu Matsuura, Naoto Kishi (Univ. of Electro-Comm.) OCS2009-113 |
We demonstrate operating wavelength-flexible all-optical signal regeneration with 80 nm wavelength range by simply contr... [more] |
OCS2009-113 pp.79-82 |
OFT, OCS (Joint) |
2009-08-28 10:25 |
Hokkaido |
|
Simple Technique for Measuring Raman Gain Efficiency Spectrum Based on OTDR Yasuhiro Tsutsumi, Masaharu Ohashi (Osaka Prefecture Univ.) OFT2009-25 |
A simple technique for measuring Raman gain efficiency spectrum distribution using an OTDR is proposed. Our technique ba... [more] |
OFT2009-25 pp.41-44 |
OFT, OCS, ITE-BCT, IEE-CMN (Joint) [detail] |
2008-11-21 11:00 |
Oita |
|
Study on Measurement Technique for Raman Gain Efficiency Distribution Based on Bidirectional OTDR without Pump Light. Kyoichi Oro, Ikuo Yamashita (Kansai Electric Power), Yasuhiro Tsutsumi, Tetsuro Yabu, Masaharu Ohashi (Osaka Prefecture University) |
An indirect measurement technique for Raman gain efficiency distribution along the transmission line based on the OTDR i... [more] |
OCS2008-99 OFT2008-64 pp.81-84(OCS), pp.91-94(OFT) |
OFT |
2008-10-17 10:00 |
Tokyo |
|
Distributed Raman amplification transmission characteristics over silica core photonic crystal fiber Chisato Fukai, Kazuhide Nakajima, Kenji Kurokawa, Katsusuke Tajima, Takashi Matsui (NTT corporation) OFT2008-34 |
We describe Raman gain and distributed Raman amplification (DRA) transmission characteristics in a silica core photonic ... [more] |
OFT2008-34 pp.1-4 |
OPE, OFT |
2008-03-07 14:55 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
Ultrashort Pulse Generation from Pulse Compression by using Raman Amplification Buddhika Praneeth Samarakoon, Motoharu Matsuura, Naoto Kishi (Univ. of Electro-Comm.) OFT2007-70 OPE2007-189 |
Wavelength division multiplexing (WDM) and optical time division multiplexing (OTDM) systems are capable of increasing t... [more] |
OFT2007-70 OPE2007-189 pp.45-49 |
LQE, OPE, OCS |
2007-11-02 16:10 |
Fukuoka |
|
20.4-Tb/s (204 x 111 Gb/s) Transmission using 111-Gb/s CSRZ-DQPSK Format and Bandwidth-Maximized Hybrid Optical Amplification Technology Hiroji Masuda, Akihide Sano, Takayuki Kobayashi, Eiji Yoshida, Yutaka Miyamoto, Yoshinori Hibino, Takashi Yamada, Tomofumi Furuta, Hiroyuki Fukuyama (NTT) OCS2007-71 OPE2007-126 LQE2007-112 |
It is crucial to establish the high-speed and large-capacity transmission system technology that can support a high-spee... [more] |
OCS2007-71 OPE2007-126 LQE2007-112 pp.155-159 |
OFT |
2005-10-14 14:55 |
Tokyo |
|
Development of Fast Gain Tilt Compensator Tatsuya Hatano, Daeyoul Yoon, Kazuyou Mizuno (THE FURUKAWA ELECTRIC CO., LTD.) |
In designing a network architecture to offer greater flexibility and higher reliability in the wavelength-division multi... [more] |
OFT2005-31 pp.23-28 |
OFT, OCS (Joint) |
2005-08-25 15:25 |
Akita |
Akita Univ. |
S-band discrete Raman amplifier using high Raman gain fiber Yuki Taniguchi, Yoshihiro Emori, Atsushi Oguri, Ryuichi Sugizaki, Misao Sakano, Takeshi Yagi (Furukawa Electric) |
We have developed a high Raman gain fiber that is applicable to Raman amplification over wide wavelength region.
Since... [more] |
OFT2005-21 pp.29-32 |
PN, CS, OCS (Joint) |
2005-05-24 13:30 |
Okinawa |
Hotel Moonbeach (Okinawa) |
[Invited Talk]
High-performance disutributed Raman amplification systems Hiroji Masuda, Masahito Tomizawa, Yutaka Miyamoto, Kazuo Hagimoto (NTT) |
The impacts of distributed Raman amplification (DRA) technologies upon long-haul and large-capacity transmission systems... [more] |
CS2005-10 OCS2005-23 PN2005-16 pp.55-60(CS), pp.67-72(OCS), pp.51-56(PN) |