Sapphire mirror for the KAGRA gravitational wave detector

被引：33

作者：

Hirose, Eiichi ^{[1
]}

Bajuk, Dan ^{[2
]}

Billingsley, GariLynn ^{[3
]}

Kajita, Takaaki ^{[1
]}

Kestner, Bob ^{[2
]}

Mio, Norikatsu ^{[4
]}

Ohashi, Masatake ^{[1
]}

Reichman, Bill ^{[2
]}

Yamamoto, Hiroaki ^{[3
]}

Zhang, Liyuan ^{[3
]}

机构：

[1] Univ Tokyo, Inst Cosm Ray Res, Kashiwa, Chiba 2778582, Japan

[2] Zygo Extreme Precis Opt, Richmond, CA 94806 USA

[3] CALTECH, LIGO Lab, Pasadena, CA 91125 USA

[4] Univ Tokyo, Photon Sci Ctr, Bunkyo Ku, Hongo, Tokyo 1138656, Japan

来源：

PHYSICAL REVIEW D | 2014年 / 89卷 / 06期

关键词：

SIMULATION;

D O I：

10.1103/PhysRevD.89.062003

中图分类号：

P1 [天文学];

学科分类号：

0704 ;

摘要：

KAGRA, the Japanese interferometric gravitational wave detector currently under construction, will employ sapphire test masses for its cryogenic operation. Sapphire has an advantage in its higher thermal conductivity near the operating temperature 20 K compared to fused silica used in other gravitational wave detectors, but there are some uncertain properties for the application such as hardness, optical absorption, and birefringence. We introduce an optical design of the test masses and our recent R&D results to address the above properties. Test polish of sapphire substrate has especially proven that specifications on the surface are sufficiently met. Recent measurements of absorption and inhomogeneity of the refractive index of the sapphire substrate indicate that the other properties are also acceptable to use sapphire crystal as test masses.

引用

页数：7

共 50 条

[1] Status of a cryogenic mirror suspension for KAGRA gravitational wave detector
Ushiba, Takafumi
[J]. 15TH MARCEL GROSSMANN MEETING, PT A, 2022, : 1606 - 1611
[2] Interferometer design of the KAGRA gravitational wave detector
Aso, Yoichi
Michimura, Yuta
Somiya, Kentaro
Ando, Masaki
Miyakawa, Osamu
Sekiguchi, Takanori
Tatsumi, Daisuke
Yamamoto, Hiroaki
[J]. PHYSICAL REVIEW D, 2013, 88 (04):
[3] KAGRA: 2.5 generation interferometric gravitational wave detector
Akutsu, T.
Ando, M.
Arai, K.
Arai, Y.
Araki, S.
Araya, A.
Aritomi, N.
Asada, H.
Aso, Y.
Atsuta, S.
Awai, K.
Bae, S.
Baiotti, L.
Barton, M. A.
Cannon, K.
Capocasa, E.
Chen, C-S.
Chiu, T-W.
Cho, K.
Chu, Y-K.
Craig, K.
Creus, W.
Doi, K.
Eda, K.
Enomoto, Y.
Flaminio, R.
Fujii, Y.
Fujimoto, M. -K.
Fukunaga, M.
Fukushima, M.
Furuhata, T.
Haino, S.
Hasegawa, K.
Hashino, K.
Hayama, K.
Hirobayashi, S.
Hirose, E.
Hsieh, B. H.
Huang, C-Z.
Ikenoue, B.
Inoue, Y.
Ioka, K.
Itoh, Y.
Izumi, K.
Kaji, T.
Kajita, T.
Kakizaki, M.
Kamiizumi, M.
Kanbara, S.
Kanda, N.
[J]. NATURE ASTRONOMY, 2019, 3 (01) : 35 - 40
[4] Prospects for improving the sensitivity of KAGRA gravitational wave detector
Michimura, Yuta
Ando, Masaki
Capocasa, Eleonora
Enomoto, Yutaro
Flaminio, Raffaele
Haino, Sadakazu
Hayama, Kazuhiro
Hirose, Eiichi
Itoh, Yousuke
Kinugawa, Tomoya
Komori, Kentro
Leonardi, Matteo
Mio, Norikatsu
Nagano, Koji
Nakano, Hiroyuki
Nishizawa, Atsushi
Sago, Norichika
Shibata, Masaru
Shinkai, Hisaaki
Somiya, Kentaro
Takeda, Hiroki
Tanaka, Takahiro
Tanioka, Satoshi
Wei, Li-Wei
Yamamoto, Kazuhiro
[J]. 15TH MARCEL GROSSMANN MEETING, PT A, 2022, : 1599 - 1605
[5] KAGRA: 2.5 generation interferometric gravitational wave detector
[J]. Nature Astronomy, 2019, 3 : 35 - 40
[6] Detector configuration of KAGRA-the Japanese cryogenic gravitational-wave detector
Somiya, Kentaro
[J]. CLASSICAL AND QUANTUM GRAVITY, 2012, 29 (12)
[7] Prospects for improving the sensitivity of the cryogenic gravitational wave detector KAGRA
Michimura, Yuta
Komori, Kentaro
Enomoto, Yutaro
Nagano, Koji
Nishizawa, Atsushi
Hirose, Eiichi
Leonardi, Matteo
Capocasa, Eleonora
Aritomi, Naoki
Zhao, Yuhang
Flaminio, Raffaele
Ushiba, Takafumi
Yamada, Tomohiro
Wei, Li-Wei
Takeda, Hiroki
Tanioka, Satoshi
Ando, Masaki
Yamamoto, Kazuhiro
Hayama, Kazuhiro
Haino, Sadakazu
Somiya, Kentaro
[J]. PHYSICAL REVIEW D, 2020, 102 (02)
[8] Mirror actuation design for the interferometer control of the KAGRA gravitational wave telescope
Michimura, Yuta
Shimoda, Tomofumi
Miyamoto, Takahiro
Shoda, Ayaka
Okutomi, Koki
Fujii, Yoshinori
Tanaka, Hiroki
Barton, Mark A.
Takahashi, Ryutaro
Aso, Yoichi
Akutsu, Tomotada
Ando, Masaki
Enomoto, Yutaro
Flaminio, Raffaele
Hayama, Kazuhiro
Hirose, Eiichi
Inoue, Yuki
Kajita, Takaaki
Kamiizumi, Masahiro
Kawamura, Seiji
Kokeyama, Keiko
Komori, Kentaro
Kumar, Rahul
Miyakawa, Osamu
Nagano, Koji
Nakano, Masayuki
Ohishi, Naoko
Ooi, Ching Pin
Pena Arellano, Fabian Erasmo
Saito, Yoshio
Shimode, Katsuhiko
Somiya, Kentaro
Takeda, Hiroki
Tomaru, Takayuki
Uchiyama, Takashi
Ushiba, Takafumi
Yamamoto, Kazuhiro
Yokozawa, Takaaki
Yuzurihara, Hirotaka
[J]. CLASSICAL AND QUANTUM GRAVITY, 2017, 34 (22)
[9] Mechanical loss of a multilayer tantala/silica coating on a sapphire disk at cryogenic temperatures: Toward the KAGRA gravitational wave detector
Hirose, Eiichi
Craig, Kieran
Ishitsuka, Hideki
Martin, Iain W.
Mio, Norikatsu
Moriwaki, Shigenori
Murray, Peter G.
Ohashi, Masatake
Rowan, Sheila
Sakakibara, Yusuke
Suzuki, Toshikazu
Waseda, Kouichi
Watanabe, Kyohei
Yamamoto, Kazuhiro
[J]. PHYSICAL REVIEW D, 2014, 90 (10):
[10] Development of advanced photon calibrator for Kamioka gravitational wave detector (KAGRA)
Inoue, Y.
Hsieh, B. H.
Chen, K. H.
Chu, Y. K.
Ito, K.
Kozakai, C.
Shishido, T.
Tomigami, Y.
Akutsu, T.
Haino, S.
Izumi, K.
Kajita, T.
Kanda, N.
Lin, C. S.
Lin, F. K.
Moriwaki, Y.
Ogaki, W.
Pang, H. F.
Sawada, T.
Tomaru, T.
Suzuki, T.
Tsuchida, S.
Ushiba, T.
Washimi, T.
Yamamoto, T.
Yokozawa, T.
[J]. REVIEW OF SCIENTIFIC INSTRUMENTS, 2023, 94 (07):

← 1 2 3 4 5 →