EPOL: the exoplanet polarimeter for EPICS at the E-ELT
Publication date
2010-10-25
Authors
Snik, Frans
Keller, Christoph
Schmid, H. M.
Venema, L.B.
Hanenburg, H.
Jager, R.
Kasper, M.
Martinez, P.
Rigal, F.
de Juan Ovelar, M.
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Document Type
Poster
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Abstract
EPOL is the imaging polarimeter part of EPICS (Exoplanet Imaging Camera and Spectrograph) for the 42-m E-ELT. It is based on sensitive imaging polarimetry to differentiate between linearly polarized light from exoplanets and unpolarized, scattered starlight and to characterize properties of exoplanet atmospheres and surfaces that cannot be determined from intensity observations alone. EPOL consists of a coronagraph and a dualbeam polarimeter with a liquid-crystal retarder to exchange the polarization of the two beams. The polarimetry thereby increases the contrast between star and exoplanet by 3 to 5 orders of magnitude over what the extreme adaptive optics and the EPOL coronagraph alone can achieve. EPOL operates between 600 and 900 nm, can select more specific wavelength bands with filters and has an integral field unit to obtain linearly polarized spectra of known exoplanets.
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Snik, F, Keller, C U, Schmid, H M, Venema, L B, Hanenburg, H, Jager, R, Kasper, M, Martinez, P, Rigal, F, de Juan Ovelar, M, Rodenhuis, M, Korkiakoski, V A, Min, M, Canovas Cabrera, H, Roelfsema, R, Verinaud, C & Yaitskova, N 2010, 'EPOL: the exoplanet polarimeter for EPICS at the E-ELT', International conference In the Spirit of Lyot 2010: Direct Detection of Exoplanets and Circumstellar Disks. October 25 - 29, 2010. University of Paris Diderot, Paris, France, Paris, 25/10/10 - 29/10/10., conference