Thermal and back-action noises in dual-sphere gravitational-waves
  detectors

A. Gillespie; A. Heidmann; A. Heidmann; A. Lobo; C.M. Caves; E. Coccia; E. Majorana; F. Bondu; F. Bondu; F. Marin; G. Ahlers; J.A. Lobo; J.A. Lobo; J.C. Price; K. Yamamoto; L. Conti; L. Conti; L. Conti; M. Cerdonio; M. Cerdonio; M. Cerdonio; M. Pinard; M. Pinard; P.F. Cohadon; S.M. Merkowitz; T. Briant; V.B. Braginsky; Y. Hadjar; Y. Levin; Y.T. Liu

research

Thermal and back-action noises in dual-sphere gravitational-waves detectors

Authors: A. Gillespie
A. Heidmann
A. Heidmann
A. Lobo
C.M. Caves
E. Coccia
E. Majorana
F. Bondu
F. Bondu
F. Marin
G. Ahlers
J.A. Lobo
J.A. Lobo
J.C. Price
K. Yamamoto
L. Conti
L. Conti
L. Conti
M. Cerdonio
M. Cerdonio
M. Cerdonio
M. Pinard
M. Pinard
P.F. Cohadon
S.M. Merkowitz
T. Briant
V.B. Braginsky
Y. Hadjar
Y. Levin
Y.T. Liu
Publication date: 1 January 2003
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We study the sensitivity limits of a broadband gravitational-waves detector based on dual resonators such as nested spheres. We determine both the thermal and back-action noises when the resonators displacements are read-out with an optomechanical sensor. We analyze the contributions of all mechanical modes, using a new method to deal with the force-displacement transfer functions in the intermediate frequency domain between the two gravitational-waves sensitive modes associated with each resonator. This method gives an accurate estimate of the mechanical response, together with an evaluation of the estimate error. We show that very high sensitivities can be reached on a wide frequency band for realistic parameters in the case of a dual-sphere detector.Comment: 10 pages, 7 figure

Similar works

Full text

Open in the Core reader

Download PDF

Available Versions

Diposit Digital de la Universitat de Barcelona

oai:diposit.ub.edu:2445/12356

Last time updated on 09/09/2013

Crossref

Last time updated on 05/06/2019