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Overview of KAGRA : Detector design and construction history
Progress of Theoretical and Experimental Physics ( IF 3.5 ) Pub Date : 2020-08-17 , DOI: 10.1093/ptep/ptaa125 T Akutsu, M Ando, K Arai, Y Arai, S Araki, A Araya, N Aritomi, Y Aso, S Bae, Y Bae, L Baiotti, R Bajpai, M A Barton, K Cannon, E Capocasa, M Chan, C Chen, K Chen, Y Chen, H Chu, Y -K Chu, S Eguchi, Y Enomoto, R Flaminio, Y Fujii, M Fukunaga, M Fukushima, G Ge, A Hagiwara, S Haino, K Hasegawa, H Hayakawa, K Hayama, Y Himemoto, Y Hiranuma, N Hirata, E Hirose, Z Hong, B H Hsieh, C -Z Huang, P Huang, Y Huang, B Ikenoue, S Imam, K Inayoshi, Y Inoue, K Ioka, Y Itoh, K Izumi, K Jung, P Jung, T Kajita, M Kamiizumi, N Kanda, G Kang, K Kawaguchi, N Kawai, T Kawasaki, C Kim, J C Kim, W S Kim, Y -M Kim, N Kimura, N Kita, H Kitazawa, Y Kojima, K Kokeyama, K Komori, A K H Kong, K Kotake, C Kozakai, R Kozu, R Kumar, J Kume, C Kuo, H -S Kuo, S Kuroyanagi, K Kusayanagi, K Kwak, H K Lee, H W Lee, R Lee, M Leonardi, L C -C Lin, C -Y Lin, F -L Lin, G C Liu, L -W Luo, M Marchio, Y Michimura, N Mio, O Miyakawa, A Miyamoto, Y Miyazaki, K Miyo, S Miyoki, S Morisaki, Y Moriwaki, K Nagano, S Nagano, K Nakamura, H Nakano, M Nakano, R Nakashima, T Narikawa, R Negishi, W -T Ni, A Nishizawa, Y Obuchi, W Ogaki, J J Oh, S H Oh, M Ohashi, N Ohishi, M Ohkawa, K Okutomi, K Oohara, C P Ooi, S Oshino, K Pan, H Pang, J Park, F E Peña Arellano, I Pinto, N Sago, S Saito, Y Saito, K Sakai, Y Sakai, Y Sakuno, S Sato, T Sato, T Sawada, T Sekiguchi, Y Sekiguchi, S Shibagaki, R Shimizu, T Shimoda, K Shimode, H Shinkai, T Shishido, A Shoda, K Somiya, E J Son, H Sotani, R Sugimoto, T Suzuki, T Suzuki, H Tagoshi, H Takahashi, R Takahashi, A Takamori, S Takano, H Takeda, M Takeda, H Tanaka, K Tanaka, K Tanaka, T Tanaka, T Tanaka, S Tanioka, E N Tapia San Martin, S Telada, T Tomaru, Y Tomigami, T Tomura, F Travasso, L Trozzo, T Tsang, K Tsubono, S Tsuchida, T Tsuzuki, D Tuyenbayev, N Uchikata, T Uchiyama, A Ueda, T Uehara, K Ueno, G Ueshima, F Uraguchi, T Ushiba, M H P M van Putten, H Vocca, J Wang, C Wu, H Wu, S Wu, W- R Xu, T Yamada, K Yamamoto, K Yamamoto, T Yamamoto, K Yokogawa, J Yokoyama, T Yokozawa, T Yoshioka, H Yuzurihara, S Zeidler, Y Zhao, Z -H Zhu
Progress of Theoretical and Experimental Physics ( IF 3.5 ) Pub Date : 2020-08-17 , DOI: 10.1093/ptep/ptaa125 T Akutsu, M Ando, K Arai, Y Arai, S Araki, A Araya, N Aritomi, Y Aso, S Bae, Y Bae, L Baiotti, R Bajpai, M A Barton, K Cannon, E Capocasa, M Chan, C Chen, K Chen, Y Chen, H Chu, Y -K Chu, S Eguchi, Y Enomoto, R Flaminio, Y Fujii, M Fukunaga, M Fukushima, G Ge, A Hagiwara, S Haino, K Hasegawa, H Hayakawa, K Hayama, Y Himemoto, Y Hiranuma, N Hirata, E Hirose, Z Hong, B H Hsieh, C -Z Huang, P Huang, Y Huang, B Ikenoue, S Imam, K Inayoshi, Y Inoue, K Ioka, Y Itoh, K Izumi, K Jung, P Jung, T Kajita, M Kamiizumi, N Kanda, G Kang, K Kawaguchi, N Kawai, T Kawasaki, C Kim, J C Kim, W S Kim, Y -M Kim, N Kimura, N Kita, H Kitazawa, Y Kojima, K Kokeyama, K Komori, A K H Kong, K Kotake, C Kozakai, R Kozu, R Kumar, J Kume, C Kuo, H -S Kuo, S Kuroyanagi, K Kusayanagi, K Kwak, H K Lee, H W Lee, R Lee, M Leonardi, L C -C Lin, C -Y Lin, F -L Lin, G C Liu, L -W Luo, M Marchio, Y Michimura, N Mio, O Miyakawa, A Miyamoto, Y Miyazaki, K Miyo, S Miyoki, S Morisaki, Y Moriwaki, K Nagano, S Nagano, K Nakamura, H Nakano, M Nakano, R Nakashima, T Narikawa, R Negishi, W -T Ni, A Nishizawa, Y Obuchi, W Ogaki, J J Oh, S H Oh, M Ohashi, N Ohishi, M Ohkawa, K Okutomi, K Oohara, C P Ooi, S Oshino, K Pan, H Pang, J Park, F E Peña Arellano, I Pinto, N Sago, S Saito, Y Saito, K Sakai, Y Sakai, Y Sakuno, S Sato, T Sato, T Sawada, T Sekiguchi, Y Sekiguchi, S Shibagaki, R Shimizu, T Shimoda, K Shimode, H Shinkai, T Shishido, A Shoda, K Somiya, E J Son, H Sotani, R Sugimoto, T Suzuki, T Suzuki, H Tagoshi, H Takahashi, R Takahashi, A Takamori, S Takano, H Takeda, M Takeda, H Tanaka, K Tanaka, K Tanaka, T Tanaka, T Tanaka, S Tanioka, E N Tapia San Martin, S Telada, T Tomaru, Y Tomigami, T Tomura, F Travasso, L Trozzo, T Tsang, K Tsubono, S Tsuchida, T Tsuzuki, D Tuyenbayev, N Uchikata, T Uchiyama, A Ueda, T Uehara, K Ueno, G Ueshima, F Uraguchi, T Ushiba, M H P M van Putten, H Vocca, J Wang, C Wu, H Wu, S Wu, W- R Xu, T Yamada, K Yamamoto, K Yamamoto, T Yamamoto, K Yokogawa, J Yokoyama, T Yokozawa, T Yoshioka, H Yuzurihara, S Zeidler, Y Zhao, Z -H Zhu
KAGRA is a newly built gravitational-wave telescope, a laser interferometer comprising arms with a length of 3\,km, located in Kamioka, Gifu, Japan. KAGRA was constructed under the ground and it is operated using cryogenic mirrors that help in reducing the seismic and thermal noise. Both technologies are expected to provide directions for the future of gravitational-wave telescopes. In 2019, KAGRA finished all installations with the designed configuration, which we call the baseline KAGRA. In this occasion, we present an overview of the baseline KAGRA from various viewpoints in a series of of articles. In this article, we introduce the design configurations of KAGRA with its historical background.
中文翻译:
KAGRA 概述:探测器设计和建造历史
KAGRA 是一种新建的引力波望远镜,一种由长度为 3 公里的臂组成的激光干涉仪,位于日本岐阜县神冈市。KAGRA 是在地下建造的,它使用有助于减少地震和热噪声的低温镜进行操作。预计这两种技术都将为引力波望远镜的未来提供方向。2019 年,KAGRA 以设计的配置完成了所有安装,我们称之为基线 KAGRA。在这种情况下,我们在一系列文章中从不同的角度对基线 KAGRA 进行了概述。在本文中,我们将结合其历史背景介绍 KAGRA 的设计配置。
更新日期:2020-08-17
中文翻译:
KAGRA 概述:探测器设计和建造历史
KAGRA 是一种新建的引力波望远镜,一种由长度为 3 公里的臂组成的激光干涉仪,位于日本岐阜县神冈市。KAGRA 是在地下建造的,它使用有助于减少地震和热噪声的低温镜进行操作。预计这两种技术都将为引力波望远镜的未来提供方向。2019 年,KAGRA 以设计的配置完成了所有安装,我们称之为基线 KAGRA。在这种情况下,我们在一系列文章中从不同的角度对基线 KAGRA 进行了概述。在本文中,我们将结合其历史背景介绍 KAGRA 的设计配置。
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