Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
OFT |
2024-05-09 13:05 |
Nagasaki |
(Primary: On-site, Secondary: Online) |
[Invited Talk]
Research and Pratical Trends in Hollow-core Fiber Takeshi Takagi, Kazunori Mukasa (Furukawa Electric) |
(To be available after the conference date) [more] |
|
OCS, OFT, IEE-CMN, ITE-BCT (Joint) [detail] |
2023-11-10 11:25 |
Kyoto |
(Primary: On-site, Secondary: Online) |
Group Delay Characteristics of Hollow Core Photonic Bandgap Fiber Keishiro Iseri, Haruya Inamitsu, Toshio Watanabe, Tsutomu Nagayama, Seiji Fukushima (Kagoshima Univ.) OFT2023-54 |
In an application where low-latency communication is crucial, a hollow core photonic bandgap optical fiber (HC-PBGF) is ... [more] |
OFT2023-54 pp.36-39 |
PN |
2023-04-28 14:35 |
Kanagawa |
(Primary: On-site, Secondary: Online) |
[Invited Talk]
High power optical transmission system using a hollow core optical fiber
-- Application to high split ratio passive optical network and optically powered radio-over-fiber system -- Hiroyuki Tsuda (Keio Univ.) PN2023-3 |
A hollow core fiber has very low optical nonlinearity and high damage threshold power, allowing it to transmit high powe... [more] |
PN2023-3 pp.12-16 |
EMD |
2023-03-03 14:45 |
Saitama |
NIT and Online (Primary: On-site, Secondary: Online) |
A Study on EBG Absorber for Imaging Electromagnetic Field Distribution using Multi-probe Type. Kento Sakemi, Yoshiki Kayano, Yoshio Kami, Fengchao Xiao (UEC) EMD2022-26 |
In this paper, loop type electromagnetic bandgap absorber for imaging electromagnetic (EM) field distribution using mult... [more] |
EMD2022-26 pp.31-34 |
ED, IEE-BMS, IEE-MSS |
2022-08-18 15:45 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. B3-2 (Primary: On-site, Secondary: Online) |
Mechanism elucidation of resistance relaxation phenomena in Pt/Nb: SrTiO3 junctions
-- Toward the application of AI devices -- Hayato Nakamura, Hiromasa Aoki, Hiroyuki Kai, Kentaro Kinoshita (Tokyo Univ. of Sci.) ED2022-22 |
(To be available after the conference date) [more] |
ED2022-22 pp.21-24 |
CPM |
2022-08-04 16:15 |
Hokkaido |
|
Hydrogen gas effects on the properties of boron carbide films prepared by magnetron sputtering Nishida Tatsuya, Taniguchi Ryu, Masayoshi Sato, Yasuyuki Kobayashi, Yoshiharu Enta, Yushi Suzuki (Hirosaki Univ.), Hirokazu Fukidome (Touhoku Univ.), Hideki Nakazawa (Hirosaki Univ.) CPM2022-15 |
We have deposited amorphous boron carbide (B4C) films and hydrogenated amorphous B4C (B4C:H) films by RF magnetron sputt... [more] |
CPM2022-15 pp.14-17 |
SDM |
2021-11-12 10:30 |
Online |
Online |
[Invited Talk]
Full band Monte Carlo analysis of the uniaxial stress impact on 4H-SiC high energy transport Tomoya Nishimura, Katsumi Eikyu, Kenichiro Sonoda, Tamotsu Ogata (Renesas Electronics) SDM2021-61 |
SiC is expected to be the next-generation semiconductor material especially for power devices, and some have been put in... [more] |
SDM2021-61 pp.43-46 |
CPM |
2019-11-08 10:50 |
Fukui |
Fukui univ. |
[Invited Talk]
Mapping of metal/semiconductor and semiconductor/semiconductor interfaces using scanning internal photoemission microscopy Kenji Shiojima (Univ. of Fukui) CPM2019-51 |
Scanning internal photoemission spectroscopy has been developed to map the electrical characteristics of metal/semicondu... [more] |
CPM2019-51 pp.35-38 |
MW |
2018-12-13 09:45 |
Kanagawa |
Kanagawa Univ. |
Simulation and Measurement of Metallic Photonic Crystal Point-Defect-Cavity with Air-gap Chenglong Xie, Chun-Ping Chen, Zejun Zhang, Tetsuo Anada (Kanagawa Univ.) MW2018-114 |
A conventional metallic photonic crystal (M-PhC) structure is constructed by a periodic arrangement of metallic rods in ... [more] |
MW2018-114 pp.1-5 |
EMT, IEE-EMT |
2018-11-17 10:00 |
Tottori |
Kaike Grand Hotel Tensui(Yonago, Tottori) |
Wideband direct coupling reduction among tapered slot antennas by electromagnetic bandgap structures Takumi Hirano, Akira Hirose (The Univ. of Tokyo) EMT2018-61 |
This paper proposes a wideband and low direct-coupling tapered slot antenna (TSA) using electromagnetic bandgap (EBG) st... [more] |
EMT2018-61 pp.163-168 |
WPT (2nd) |
2017-12-09 - 2017-12-11 |
Overseas |
National University of Singapore(AWPT2017) |
Electromagnetic Bandgap Structure Enhanced Ellipsoidal Coils for Wireless Power Transfer for Ingestible Devices Wenshen Zhou, Omkar, Shao Ying Huang (Singapore Univ. of Tech. and Design) |
Ingestible devices are electronic devices placed in the gastrointestinal tract for diagnoses or monitoring. To power the... [more] |
|
OFT, OCS, IEE-CMN, ITE-BCT [detail] |
2017-11-24 14:50 |
Osaka |
Kansa-Univ. Umeda Campus |
Effect of Surface Modes on Core Modes in Hollow-Core Photonic Bandgap Fibers Nobuaki Kosake, Hirokazu Kubota, Yuji Miyoshi, Masaharu Ohashi (Osaka Pref. Univ.) OFT2017-55 |
Hollow-core photonic bandgap fibers (PBGFs) with low attenuation and dispersion are expected because they use a micro st... [more] |
OFT2017-55 pp.71-74 |
MW |
2017-11-09 15:00 |
Okinawa |
Miyakojima Marin Terminal Bldg. |
Resonance Characteristics of Microwave Metallic Photonic Crystal Line Defect Resonators with Coaxial Excitation and Application to Band-pass Filter Tomomasa Sato, Chenglong Xie, Zejun Zhang, Chun-Ping Chen, Tetsuo Anada (Kanagawa Univ.), Zhewang Ma (Saitama Univ.) MW2017-124 |
(To be available after the conference date) [more] |
MW2017-124 pp.67-72 |
WPT, MW |
2017-04-28 16:15 |
Tokyo |
Kikai-Shinko Kaikan, B2-1 |
Simulation and Measurement of Metallic Photonic Crystal Point-Defect-Cavity in Microwave Regime Chun-Ping Chen, Chenglong Xie, Daisuke Tetsuda, Shun Kikawa, Tetsuo Anada, Zejun Zhang (Kanagawa Univ.) WPT2017-7 MW2017-7 |
By changing the radius of the rod in the center of a point-defect-cavity (PDC) based on metallic photonic crystals (M-Ph... [more] |
WPT2017-7 MW2017-7 pp.29-34 |
OCS, OFT, OPE (Joint) [detail] |
2017-02-17 09:55 |
Osaka |
Osaka Prefecture University(I-site Nanba) |
Effect of surface modes on dispersion in hollow-core photonic bandgap fibers Nobuaki Kosake, Hirokazu Kubota, Yuji Miyoshi, Masaharu Ohashi (Osaka Pref. Univ.) OFT2016-50 OPE2016-167 |
Realization of hollow-core photonic bandgap fibers (PBGFs) with low attenuation and dispersion are expected because they... [more] |
OFT2016-50 OPE2016-167 pp.29-32(OFT), pp.39-42(OPE) |
SDM |
2016-11-11 11:00 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
[Invited Talk]
Simulation Studies Contributing to Development of Wide-Bandgap Power Semiconductor Devices Kazuhiro Mochizuki (AIST) SDM2016-85 |
Studies contributing to wide-bandgap semiconductor (e.g., 4H-SiC and 2H-GaN) power devices, using commercial process and... [more] |
SDM2016-85 pp.37-42 |
EMCJ, IEE-EMC, IEE-MAG |
2016-06-02 09:40 |
Overseas |
NTU, Taiwan |
Compact Spiral Patch EBG Structure with a Shunt Capacitor for Broadband SSN Suppression Chi-Kai Shen, Tzong-Lin Wu (NTU) EMCJ2016-19 |
A broadband and compact spiral patch electromagnetic bandgap (EBG) structure with a shunt capacitor is proposed for simu... [more] |
EMCJ2016-19 p.1 |
ED |
2016-01-20 13:55 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
[Invited Lecture]
Estimation of RF-DC conversion efficiency of microwave power Shottky barrier diodes for rectenna by small equivalent circuit model
-- Comparison of semiconductor materials -- Toshiyuki Oishi, Makoto Kasu (Saga Univ.) ED2015-116 |
RF-DC conversion efficiencies of rectenna using conventional and wide bandgap semiconductors are estimated by small sign... [more] |
ED2015-116 pp.25-29 |
SDM |
2015-06-19 16:30 |
Aichi |
VBL, Nagoya Univ. |
[Invited Lecture]
Bandgap opening and electrode contact resistances in bilayer graphene field-effect transistors Ryo Nouchi (Osaka Pref. Univ.) SDM2015-54 |
A bandgap is opened in bilayer graphene (BLG) by introducing a potential difference between the two graphene layers, rai... [more] |
SDM2015-54 pp.87-92 |
SDM |
2014-11-06 13:00 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
[Invited Talk]
Device simulation
-- More than 30 years in Toshiba's TCAD -- Naoyuki Shigyo (Toshiba) SDM2014-100 |
TCAD is one of important tools for designing a semiconductor device. As a virtual fabrication, TCAD contributes to reduc... [more] |
SDM2014-100 pp.25-30 |