Searching for Gravitational Waves with a Geostationary Interferometer

Ajith; Antonucci; Antonucci; Armstrong; Baker; Baker; Campanelli; Centrella; Detweiler; Echeverria; Edlund; Estabrook; Esteban; Filloux; Filloux; Flanagan; Hinder; Hiscock; Jose C.N. de Araujo; Leonhardt; Maral; Massimo Tinto; McWilliams; Márcio E.S. Alves; Ni; Odylio D. Aguiar; Pretorius; Robertson; Seto; Shaddock; Shaddock; Soop; Sun; Thorne; Tinto; Tinto; Tinto; Tinto; Wuchenich

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Searching for Gravitational Waves with a Geostationary Interferometer

Authors: Ajith
Antonucci
Antonucci
Armstrong
Baker
Baker
Campanelli
Centrella
Detweiler
Echeverria
Edlund
Estabrook
Esteban
Filloux
Filloux
Flanagan
Hinder
Hiscock
Jose C.N. de Araujo
Leonhardt
Maral
Massimo Tinto
McWilliams
Márcio E.S. Alves
Ni
Odylio D. Aguiar
Pretorius
Robertson
Seto
Shaddock
Shaddock
Soop
Sun
Thorne
Tinto
Tinto
Tinto
Tinto
Wuchenich
Publication date: 16 August 2013
Publisher: 'Elsevier BV'
Doi

Abstract

We analyze the sensitivities of a geostationary gravitational wave interferometer mission operating in the sub-Hertz band. Because of its smaller armlength, in the lower part of its accessible frequency band (

10^{-4} - 2 \times 10^{-2}

Hz) our proposed Earth-orbiting detector will be less sensitive, by a factor of about seventy, than the Laser Interferometer Space Antenna (LISA) mission. In the higher part of its band instead (

2 \times 10^{-2} - 10

Hz), our proposed interferometer will have the capability of observing super-massive black holes (SMBHs) with masses smaller than

\sim 10^{6}

M

_{\odot}

. With good event rates for these systems, a geostationary interferometer will be able to accurately probe the astrophysical scenarios that account for their formation.Comment: 33 pages, 9 eps figure

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