The basic constituent of many space-borne gravitational missions, in particular, for interferometric gravitational-wave detectors, is the so-called ‘‘link’’ made out of a satellite sending an electromagnetic beam to a second satellite. We illustrate how, by measuring the time derivative of the frequency of the received beam, the link behaves as a differential, time-delayed dynamometer in which the effect of gravity is exactly equivalent to an effective differential force applied to the two satellites. We also show that this differential force gives an integrated measurement of curvature along the beam. Finally, we discuss how this approach can be implemented to benefit the data analysis of gravitational-wave detectors.

Space-borne gravitational-wave detectors as time-delayed differential dynamometers

Congedo, Giuseppe;Dolesi, Rita;Hueller, Mauro;Vitale, Stefano;Weber, William Joseph
2013-01-01

Abstract

The basic constituent of many space-borne gravitational missions, in particular, for interferometric gravitational-wave detectors, is the so-called ‘‘link’’ made out of a satellite sending an electromagnetic beam to a second satellite. We illustrate how, by measuring the time derivative of the frequency of the received beam, the link behaves as a differential, time-delayed dynamometer in which the effect of gravity is exactly equivalent to an effective differential force applied to the two satellites. We also show that this differential force gives an integrated measurement of curvature along the beam. Finally, we discuss how this approach can be implemented to benefit the data analysis of gravitational-wave detectors.
2013
Congedo, Giuseppe; Dolesi, Rita; Hueller, Mauro; Vitale, Stefano; Weber, William Joseph
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11572/67880
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