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A: Fachverband Atomphysik
A 5: Precision Measurements and Metrology: Gravity (with Q)
A 5.7: Vortrag
Montag, 6. März 2017, 16:15–16:30, P 104
Optical three-signal test for the LISA phasemeter — •Germán Fernández Barranco, Daniel Penkert, Thomas Schwarze, Oliver Gerberding, and Gerhard Heinzel — Max Planck Institute for Gravitational Physics, Callinstraße 38 30167 Hannover
The planned spaceborne gravitational wave detector LISA will allow the detection of gravitational waves at frequencies between 0.1 mHz and 1 Hz. It uses high-precision heterodyne laser interferometry as the main measurement technology. A breadboard model of the interferometric phase readout system (phasemeter) was developed in the scope of an ESA technology development project. This project was completed successfully fulfilling all performance requirements in an electrical two-signal test. Here we present the advances of an optical testbed for the phasemeter as well as measurements. The testbed is based on an ultra-stable hexagonal optical bench. This bench allows the generation of three unequal heterodyne beatnotes, thus enabling us to probe the phasemeter for nonlinearities in an optical three-signal test. The final goal is to show a performance in the microcycle/sqrt(Hz) regime for the upper part of the LISA measurement band (5 mHz to 1 Hz) with a dynamic range of about 7 orders of magnitude using beatnotes between 5 and 25 MHz. The measurements presented here fulfill this requirement down to 100 mHz including dynamic and beatnote ranges. Once full performane is achieved, other components of the LISA arm metrology chain (clock noise transfer and removal, inter-satellite ranging and communication) can be tested in this setup.