Translator Disclaimer
Paper
21 July 2010 MAMMUT: mirror vibration metrology for VLTI
Author Affiliations +
Abstract
MAMMUT (Mirror vibrAtion Metrolology systeM for the Unit Telescope) is an ESO funded feasibility project for the development of a fiber interferometer prototype designed for optical path laser-metrology along the optical train of the Unit Telescopes (UT) of the Very Large Telescope Interferometer (VLTI). Fast mechanical vibrations originating in the VLTI cause fast variations of the optical path difference between two arms of the stellar interferometer, thus reducing the contrast of measured interference fringes. MAMMUT aims at monitoring in real time the optical path variations inside the Coudé train of the UT, for active control purposes. MAMMUT features a 250-meter-long optical fiber which can be used to deliver and inject a laser beam at 1353 nm into the UT. The injected beam can be dropped from the telescope in the Coudé room and interfered with a phase reference, provided by the second 250-meter-long arm of the fiber interferometer. The optical path variations are measured by means of an active homodyne scheme. Coherence between the beam at the injection point and the phase reference is provided by active fiber stabilization, made possible by the implementation of an internal metrology channel in MAMMUT. Here we present the initial laboratory performance results of the MAMMUT prototype, which will be able to sense optical path variations of +/- 5 μm with sub-10 nm precision within a bandwidth of at least 100 Hz.
© (2010) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Izabela Spaleniak, Frank Giessler, Reinhard Geiss, Stefano Minardi, Thomas Pertsch, Ralph Neuhaeuser, Martin Becker, Manfred Rothhardt, Françoise Delplancke, Andrea Richichi, Serge Ménardi, and Christian Schmid "MAMMUT: mirror vibration metrology for VLTI", Proc. SPIE 7734, Optical and Infrared Interferometry II, 77343Y (21 July 2010); https://doi.org/10.1117/12.856898
PROCEEDINGS
7 PAGES


SHARE
Advertisement
Advertisement
RELATED CONTENT


Back to Top