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The next detectors for gravitational wave astronomy | | David Blair
; Li Ju
; Chunnong Zhao
; Linqing Wen
; Haixing Miao
; Ronggen Cai
; Jiangrui Gao
; Xuechun Lin
; Dong Liu
; Ling-An Wu
; Zonghong Zhu
; Giles Hammond
; Ho Jung Paik
; Viviana Fafone
; Alessio Rocchi
; Chunnong Zhao
; Yiqiu Ma
; Jiayi Qin
; Michael Page
; | | Date: |
16 Feb 2016 | | Abstract: | This paper focuses on the next detectors for gravitational wave astronomy
which will be required after the current ground based detectors have completed
their initial observations, and probably achieved the first direct detection of
gravitational waves. The next detectors will need to have greater sensitivity,
while also enabling the world array of detectors to have improved angular
resolution to allow localisation of signal sources. Sect. 1 of this paper
begins by reviewing proposals for the next ground based detectors, and presents
an analysis of the sensitivity of an 8 km armlength detector, which is proposed
as a safe and cost-effective means to attain a 4-fold improvement in
sensitivity. The scientific benefits of creating a pair of such detectors in
China and Australia is emphasised. Sect. 2 of this paper discusses the high
performance suspension systems for test masses that will be an essential
component for future detectors, while sect. 3 discusses solutions to the
problem of Newtonian noise which arise from fluctuations in gravity gradient
forces acting on test masses. Such gravitational perturbations cannot be
shielded, and set limits to low frequency sensitivity unless measured and
suppressed. Sects. 4 and 5 address critical operational technologies that will
be ongoing issues in future detectors. Sect. 4 addresses the design of thermal
compensation systems needed in all high optical power interferometers operating
at room temperature. Parametric instability control is addressed in sect. 5.
Only recently proven to occur in Advanced LIGO, parametric instability
phenomenon brings both risks and opportunities for future detectors. The path
to future enhancements of detectors will come from quantum measurement
technologies. Sect. 6 focuses on the use of optomechanical devices for
obtaining enhanced sensitivity, while sect. 7 reviews a range of quantum
measurement options. | | Source: | arXiv, 1602.5087 | | Services: | Forum | Review | PDF | Favorites | |
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