SPHERE ZIMPOL: Overview and performance simulation

Open Access
Authors
  • C. Thalmann
  • H.M. Schmid
  • A. Boccaletti
  • D. Mouillet
  • K. Dohlen
  • R. Roelfsema
  • M. Carbillet
  • D. Gisler
  • J.-L. Beuzit
  • M. Feldt
  • R. Gratton
  • F. Joos
  • C.U. Keller
  • J. Kragt
  • J.H. Pragt
  • P. Puget
  • F. Rigal
  • F. Snik
  • R. Waters
  • F. Wildi
Publication date 2008
Host editors
  • I.S. McLean
  • M.M. Casali
Book title Ground-based and Airborne Instrumentation for Astronomy II
Book subtitle 23-28 June 2008, Marseille, France
ISBN
  • 9780819472243
Series Proceedings of SPIE, the International Society for Optical Engineering
Event SPIE Astronomical Instrumentation 2008, Marseille, France
Article number 70143F
Volume | Issue number 2
Number of pages 12
Publisher Bellingham, WA: SPIE
Organisations
  • Faculty of Science (FNWI) - Anton Pannekoek Institute for Astronomy (API)
Abstract
The ESO planet finder instrument SPHERE will search for the polarimetric signature of the reflected light from extrasolar planets, using a VLT telescope, an extreme AO system (SAXO), a stellar coronagraph, and an imaging polarimeter (ZIMPOL). We present the design concept of the ZIMPOL instrument, a single-beam polarimeter that achieves very high polarimetric accuracy using fast polarization modulation and demodulating CCD detectors. Furthermore, we describe comprehensive performance simulations made with the CAOS problem-solving environment. We conclude that direct detection of Jupiter-sized planets in close orbit around the brightest nearby stars is achievable with imaging polarimetry, signal-switching calibration, and angular differential imaging.
Document type Conference contribution
Language English
Published at https://doi.org/10.1117/12.789158
Downloads
301752.pdf (Accepted author manuscript)
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