Calculation of thermal radiation input via funneling through a duct shield with baffles for KAGRA

Yusuke Sakakibara; Nobuhiro Kimura; Kazuhiro Yamamoto; Toshikazu Suzuki; Takayuki Tomaru; Shinji Miyoki; Takashi Uchiyama; Kazuaki Kuroda

doi:10.1088/0264-9381/29/20/205019

Calculation of thermal radiation input via funneling through a duct shield with baffles for KAGRA

Yusuke Sakakibara^*, Nobuhiro Kimura, Kazuhiro Yamamoto, Toshikazu Suzuki, Takayuki Tomaru, Shinji Miyoki, Takashi Uchiyama, Kazuaki Kuroda

^*Corresponding author for this work

Department of Physics

Research output: Contribution to journal › Article › peer-review

11 Scopus citations

Abstract

Many studies worldwide are currently developing interferometric methods for detecting gravitational waves and one of the challenges in such methods has been to sufficiently cool the mirror in interferometric detectors in order to reduce thermal noise. Although the mirror is surrounded by a radiation shield, a hole in the shield is necessary to allow the laser beam to pass. To reduce the thermal radiation caused by the presence of the hole, we will install a duct shield with baffles. To calculate the heat input through the duct shield, we applied a ray trace model whose results were consistent with those of an experiment without baffles. As an application of our model, the heat input in the case of KAGRA (a Japanese cryogenic gravitational wave detector project) was calculated. Our analysis suggests that baffles in the duct shield can considerably reduce the heat input in KAGRA.

Original language	English
Article number	205019
Journal	Classical and Quantum Gravity
Volume	29
Issue number	20
DOIs	https://doi.org/10.1088/0264-9381/29/20/205019
State	Published - 2012/10/21

ASJC Scopus subject areas

Physics and Astronomy (miscellaneous)

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Cite this

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title = "Calculation of thermal radiation input via funneling through a duct shield with baffles for KAGRA",

abstract = "Many studies worldwide are currently developing interferometric methods for detecting gravitational waves and one of the challenges in such methods has been to sufficiently cool the mirror in interferometric detectors in order to reduce thermal noise. Although the mirror is surrounded by a radiation shield, a hole in the shield is necessary to allow the laser beam to pass. To reduce the thermal radiation caused by the presence of the hole, we will install a duct shield with baffles. To calculate the heat input through the duct shield, we applied a ray trace model whose results were consistent with those of an experiment without baffles. As an application of our model, the heat input in the case of KAGRA (a Japanese cryogenic gravitational wave detector project) was calculated. Our analysis suggests that baffles in the duct shield can considerably reduce the heat input in KAGRA.",

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AU - Sakakibara, Yusuke

AU - Kimura, Nobuhiro

AU - Yamamoto, Kazuhiro

AU - Suzuki, Toshikazu

AU - Tomaru, Takayuki

AU - Miyoki, Shinji

AU - Uchiyama, Takashi

AU - Kuroda, Kazuaki

PY - 2012/10/21

Y1 - 2012/10/21

N2 - Many studies worldwide are currently developing interferometric methods for detecting gravitational waves and one of the challenges in such methods has been to sufficiently cool the mirror in interferometric detectors in order to reduce thermal noise. Although the mirror is surrounded by a radiation shield, a hole in the shield is necessary to allow the laser beam to pass. To reduce the thermal radiation caused by the presence of the hole, we will install a duct shield with baffles. To calculate the heat input through the duct shield, we applied a ray trace model whose results were consistent with those of an experiment without baffles. As an application of our model, the heat input in the case of KAGRA (a Japanese cryogenic gravitational wave detector project) was calculated. Our analysis suggests that baffles in the duct shield can considerably reduce the heat input in KAGRA.

AB - Many studies worldwide are currently developing interferometric methods for detecting gravitational waves and one of the challenges in such methods has been to sufficiently cool the mirror in interferometric detectors in order to reduce thermal noise. Although the mirror is surrounded by a radiation shield, a hole in the shield is necessary to allow the laser beam to pass. To reduce the thermal radiation caused by the presence of the hole, we will install a duct shield with baffles. To calculate the heat input through the duct shield, we applied a ray trace model whose results were consistent with those of an experiment without baffles. As an application of our model, the heat input in the case of KAGRA (a Japanese cryogenic gravitational wave detector project) was calculated. Our analysis suggests that baffles in the duct shield can considerably reduce the heat input in KAGRA.

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Calculation of thermal radiation input via funneling through a duct shield with baffles for KAGRA

Abstract

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