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  SPHERE/ZIMPOL high resolution polarimetric imager. I. System overview, PSF parameters, coronagraphy, and polarimetry

Schmid, H. M., Bazzon, A., Roelfsema, R., Mouillet, D., Milli, J., Menard, F., et al. (2018). SPHERE/ZIMPOL high resolution polarimetric imager. I. System overview, PSF parameters, coronagraphy, and polarimetry. Astronomy and Astrophysics, 619.

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https://ui.adsabs.harvard.edu/abs/2018A&A...619A...9S (beliebiger Volltext)
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Schmid, H. M.1, Autor
Bazzon, A.1, Autor
Roelfsema, R.1, Autor
Mouillet, D.1, Autor
Milli, J.1, Autor
Menard, F.1, Autor
Gisler, D.1, Autor
Hunziker, S.1, Autor
Pragt, J.1, Autor
Dominik, C.1, Autor
Boccaletti, A.1, Autor
Ginski, C.1, Autor
Abe, L.1, Autor
Antoniucci, S.1, Autor
Avenhaus, H.1, Autor
Baruffolo, A.1, Autor
Baudoz, P.1, Autor
Beuzit, J. L.1, Autor
Carbillet, M.1, Autor
Chauvin, G.1, Autor
Claudi, R.1, AutorCostille, A.1, AutorDaban, J. -B.1, Autorde Haan, M.1, AutorDesidera, S.1, AutorDohlen, K.1, AutorDowning, M.1, AutorElswijk, E.1, AutorEngler, N.1, AutorFeldt, M.1, AutorFusco, T.1, AutorGirard, J. H.1, AutorGratton, R.1, AutorHanenburg, H.1, AutorHenning, Th.1, AutorHubin, N.1, AutorJoos, F.1, AutorKasper, M.1, AutorKeller, C. U.1, AutorLanglois, M.1, AutorLagadec, E.1, AutorMartinez, P.1, AutorMulder, E.1, AutorPavlov, A.1, AutorPodio, L.1, AutorPuget, P.1, AutorQuanz, S. P.1, AutorRigal, F.1, AutorSalasnich, B.1, AutorSauvage, J. -F.1, AutorSchuil, M.1, AutorSiebenmorgen, R.1, AutorSissa, E.1, AutorSnik, F.1, AutorSuarez, M.1, AutorThalmann, Ch.1, AutorTuratto, M.1, AutorUdry, S.1, Autorvan Duin, A.1, Autorvan Holstein, R. G.1, AutorVigan, A.1, AutorWildi, F.1, Autor mehr..
Affiliations:
1Max Planck Institute for Astronomy, Max Planck Society and Cooperation Partners, ou_2421692              

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Schlagwörter: instrumentation: adaptive optics instrumentation: high angular resolution instrumentation: polarimeters instrumentation: detectors planetary systems circumstellar matter Astrophysics - Instrumentation and Methods for Astrophysics
 Zusammenfassung: Context. The SPHERE "planet finder" is an extreme adaptive optics (AO) instrument for high resolution and high contrast observations at the Very Large Telescope (VLT). We describe the Zurich Imaging Polarimeter (ZIMPOL), the visual focal plane subsystem of SPHERE, which pushes the limits of current AO systems to shorter wavelengths, higher spatial resolution, and much improved polarimetric performance.
Aims: We present a detailed characterization of SPHERE/ZIMPOL which should be useful for an optimal planning of observations and for improving the data reduction and calibration. We aim to provide new benchmarks for the performance of high contrast instruments, in particular for polarimetric differential imaging.
Methods: We have analyzed SPHERE/ZIMPOL point spread functions (PSFs) and measure the normalized peak surface brightness, the encircled energy, and the full width half maximum (FWHM) for different wavelengths, atmospheric conditions, star brightness, and instrument modes. Coronagraphic images are described and the peak flux attenuation and the off-axis flux transmission are determined. Simultaneous images of the coronagraphic focal plane and the pupil plane are analyzed and the suppression of the diffraction rings by the pupil stop is investigated. We compared the performance at small separation for different coronagraphs with tests for the binary α Hyi with a separation of 92 mas and a contrast of ∆m ≈ 6m. For the polarimetric mode we made the instrument calibrations using zero polarization and high polarization standard stars and here we give a recipe for the absolute calibration of polarimetric data. The data show small (< 1 mas) but disturbing differential polarimetric beam shifts, which can be explained as Goos-Hähnchen shifts from the inclined mirrors, and we discuss how to correct this effect. The polarimetric sensitivity is investigated with non-coronagraphic and deep, coronagraphic observations of the dust scattering around the symbiotic Mira variable R Aqr.
Results: SPHERE/ZIMPOL reaches routinely an angular resolution (FWHM) of 22-28 mas, and a normalized peak surface brightness of SB0 - mstar ≈ -6.5m arcsec-2 for the V-, R- and I-band. The AO performance is worse for mediocre ≳1.0″ seeing conditions, faint stars mR ≳ 9m, or in the presence of the "low wind" effect (telescope seeing). The coronagraphs are effective in attenuating the PSF peak by factors of > 100, and the suppression of the diffracted light improves the contrast performance by a factor of approximately two in the separation range 0.06″-0.20″. The polarimetric sensitivity is ∆p < 0.01% and the polarization zero point can be calibrated to better than ∆p ≈ 0.1%. The contrast limits for differential polarimetric imaging for the 400 s I-band data of R Aqr at a separation of ρ = 0.86″ are for the surface brightness contrast SBpol( ρ)-mstar ≈ 8m arcsec-2 and for the point source contrast mpol( ρ)-mstar ≈ 15m and much lower limits are achievable with deeper observations.
Conclusions: SPHERE/ZIMPOL achieves imaging performances in the visual range with unprecedented characteristics, in particular very high spatial resolution and very high polarimetric contrast. This instrument opens up many new research opportunities for the detailed investigation of circumstellar dust, in scattered and therefore polarized light, for the investigation of faint companions, and for the mapping of circumstellar Hα emission. Based on observations collected at La Silla and Paranal Observatory, ESO (Chile), Program ID: 60.A-9249 and 60.A-9255.

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 Datum: 2018
 Publikationsstatus: Erschienen
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Titel: Astronomy and Astrophysics
Genre der Quelle: Zeitschrift
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Seiten: - Band / Heft: 619 Artikelnummer: - Start- / Endseite: - Identifikator: -