SPHERE/ZIMPOL high resolution polarimetric imager

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 Δm ≈ 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 Δp < 0.01% and the polarization zero point can be calibrated to better than Δp ≈ 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.

[1]  M. Stute,et al.  The bipolar jet of the symbiotic star R Aquarii: A study of its morphology using the high-resolution HST WFC3/UVIS camera , 2018, 1802.00503.

[2]  R. Corradi,et al.  New insights into the outflows from R Aquarii , 2018, 1801.08209.

[3]  T. Fusco,et al.  The HIP 79977 debris disk in polarized light , 2017, 1709.00417.

[4]  K.-H. Hofmann,et al.  Vigorous atmospheric motion in the red supergiant star Antares , 2017, Nature.

[5]  Julien H. Girard,et al.  Exploring Dust around HD 142527 down to 0.″025 (4 au) Using SPHERE/ZIMPOL , 2017, 1705.09680.

[6]  S. Hofner,et al.  Modelling polarized light from dust shells surrounding asymptotic giant branch stars , 2017, 1705.08703.

[7]  Julien H. Girard,et al.  SPHERE/ZIMPOL observations of the symbiotic system R Aquarii - I. Imaging of the stellar binary and the innermost jet clouds , 2017, 1703.05624.

[8]  J. Hron,et al.  The VLTI/MIDI view on the inner mass loss of evolved stars from the Herschel MESS sample , 2017, 1701.05407.

[9]  T. Zeeuw Reaching New Heights in Astronomy - ESO Long Term Perspectives , 2017, 1701.01249.

[10]  T. Fusco,et al.  Shadows and spirals in the protoplanetary disk HD 100453 , 2016, 1610.10089.

[11]  Julien H. Girard,et al.  Three Radial Gaps in the Disk of TW Hydrae Imaged with SPHERE , 2016, 1610.08939.

[12]  X. Delfosse,et al.  Atmospheric characterization of Proxima b by coupling the Sphere high-contrast imager to the Espresso spectrograph , 2016, 1609.03082.

[13]  M. Turatto,et al.  Sub-0.1" optical imaging of the Z CMa jets with SPHERE/ZIMPOL , 2016, 1608.07974.

[14]  Kjetil Dohlen,et al.  SPHERE IRDIS and IFS astrometric strategy and calibration , 2016, Astronomical Telescopes + Instrumentation.

[15]  Julien H. Girard,et al.  Sparse aperture masking with SPHERE , 2016, Astronomical Telescopes + Instrumentation.

[16]  T. Fusco,et al.  SAXO, the SPHERE extreme AO system: on-sky final performance and future improvements , 2016, Astronomical Telescopes + Instrumentation.

[17]  Kjetil Dohlen,et al.  Tackling down the low wind effect on SPHERE instrument , 2016, Astronomical Telescopes + Instrumentation.

[18]  Kjetil Dohlen,et al.  The ZIMPOL high contrast imaging polarimeter for SPHERE: polarimetric high contrast commissioning results , 2016, Astronomical Telescopes + Instrumentation.

[19]  R. Ahuja,et al.  Dynamic atmospheres and winds of cool luminous giants - I. Al2O3 and silicate dust in the close vicinity of M-type AGB stars , 2016, 1605.09730.

[20]  Kjetil Dohlen,et al.  SAXO: the extreme adaptive optics system of SPHERE (I) system overview and global laboratory performance , 2016 .

[21]  M. Min,et al.  Study of the inner dust envelope and stellar photosphere of the AGB star R Doradus using SPHERE/ZIMPOL , 2016, 1605.05504.

[22]  G. Weigelt,et al.  Clumpy dust clouds and extended atmosphere of the AGB star W Hydrae revealed with VLT/SPHERE-ZIMPOL and VLTI/AMBER. II. Time variations between pre-maximum and minimum light , 2016, 1611.04622.

[23]  David Mouillet,et al.  The SPHERE view of the planet-forming disk around HD 100546 , 2016, 1601.04983.

[24]  Joel H. Kastner,et al.  PEERING INTO THE GIANT-PLANET-FORMING REGION OF THE TW HYDRAE DISK WITH THE GEMINI PLANET IMAGER , 2015, 1512.01865.

[25]  S. T. Ridgway,et al.  The close circumstellar environment of Betelgeuse - III. SPHERE/ZIMPOL imaging polarimetry in the visible , 2015, 1511.04451.

[26]  D. Fantinel,et al.  First light of the VLT planet finder SPHERE IV : Physical and chemical properties of the planets around HR8799 , 2015, 1511.04082.

[27]  T. Fusco,et al.  First light of the VLT planet finder SPHERE II. The physical properties and the architecture of the young systems PZ Telescopii and HD 1160 revisited , 2015, 1511.04072.

[28]  T. Fusco,et al.  First light of the VLT planet finder SPHERE: I. Detection and characterization of the substellar companion GJ 758 B , 2015, 1511.04076.

[29]  D. Fantinel,et al.  First light of the VLT planet finder SPHERE - III. New spectrophotometry and astrometry of the HR 8799 exoplanetary system , 2015, 1511.04083.

[30]  Jarron Leisenring,et al.  UvA-DARE (Digital Academic Repository) Optical Imaging Polarimetry of the LkCa 15 Protoplanetary Disk with SPHERE ZIMPOL , 2015 .

[31]  G. Perrin,et al.  The Subaru Coronagraphic Extreme Adaptive Optics System: Enabling High-Contrast Imaging on Solar-System Scales , 2015, 1507.00017.

[32]  Julien H. Girard,et al.  The dust disk and companion of the nearby AGB star L2 Puppis - SPHERE/ZIMPOL polarimetric imaging at visible wavelengths , 2015, 1511.04448.

[33]  Russell A. Chipman,et al.  Polarization Aberrations in Astronomical Telescopes: The Point Spread Function , 2015 .

[34]  C. A. Grady,et al.  DISCOVERY OF A DISK GAP CANDIDATE AT 20 AU IN TW HYDRAE , 2015, 1503.01856.

[35]  A. Bellini,et al.  HUBBLE SPACE TELESCOPE PROPER MOTION (HSTPROMO) CATALOGS OF GALACTIC GLOBULAR CLUSTERS. I. SAMPLE SELECTION, DATA REDUCTION, AND NGC 7078 RESULTS , 2014, 1410.5820.

[36]  A. Vigan,et al.  SPHERE/IRDIS: final performance assessment of the dual-band imaging and long slit spectroscopy modes , 2014, Astronomical Telescopes and Instrumentation.

[37]  Dmitry Savransky,et al.  POLARIMETRY WITH THE GEMINI PLANET IMAGER: METHODS, PERFORMANCE AT FIRST LIGHT, AND THE CIRCUMSTELLAR RING AROUND HR 4796A , 2014, 1407.2495.

[38]  David Le Mignant,et al.  High contrast polarimetry in the infrared with SPHERE on the VLT , 2014, Astronomical Telescopes and Instrumentation.

[39]  Andrew W. Serio,et al.  First light of the Gemini Planet Imager , 2014, Proceedings of the National Academy of Sciences.

[40]  Sascha P. Quanz,et al.  STRUCTURES IN THE PROTOPLANETARY DISK OF HD142527 SEEN IN POLARIZED SCATTERED LIGHT , 2013, 1311.7088.

[41]  S. Esposito,et al.  DIFFRACTION-LIMITED VISIBLE LIGHT IMAGES OF ORION TRAPEZIUM CLUSTER WITH THE MAGELLAN ADAPTIVE SECONDARY ADAPTIVE OPTICS SYSTEM (MagAO) , 2013, 1308.4155.

[42]  Kjetil Dohlen,et al.  Prospects of detecting the polarimetric signature of the Earth-mass planet alpha Centauri B b with S , 2013, 1306.1006.

[43]  K. Bliokh,et al.  Goos–Hänchen and Imbert–Fedorov beam shifts: an overview , 2012, 1210.8236.

[44]  M. de Juan Ovelar,et al.  Modeling the instrumental polarization of the VLT and E-ELT telescopes with the M&m's code , 2012, Other Conferences.

[45]  Kjetil Dohlen,et al.  Alignment of the SPHERE-ZIMPOL imaging polarimeter , 2012, Other Conferences.

[46]  Julien H. Girard,et al.  Gearing up the SPHERE , 2012 .

[47]  Adam Amara,et al.  PYNPOINT: An image processing package for finding exoplanets , 2012, 1207.6637.

[48]  R. Soummer,et al.  DETECTION AND CHARACTERIZATION OF EXOPLANETS AND DISKS USING PROJECTIONS ON KARHUNEN–LOÈVE EIGENIMAGES , 2012, 1207.4197.

[49]  S. Ganesh,et al.  Optical polarization observations on R Aquarii during 1995-2008: What do they tell us? , 2012 .

[50]  R. Schiavon,et al.  ULTRAVIOLET PROPERTIES OF GALACTIC GLOBULAR CLUSTERS WITH GALEX. II. INTEGRATED COLORS , 2012, 1301.4329.

[51]  Peter G. Tuthill,et al.  A close halo of large transparent grains around extreme red giant stars , 2012, Nature.

[52]  C. A. Grady,et al.  DISCOVERY OF SMALL-SCALE SPIRAL STRUCTURES IN THE DISK OF SAO 206462 (HD 135344B): IMPLICATIONS FOR THE PHYSICAL STATE OF THE DISK FROM SPIRAL DENSITY WAVE THEORY , 2012, 1202.6139.

[53]  M. Kasper,et al.  Adaptive Optics for Astronomy , 2012, 1201.5741.

[54]  R. Schiavon,et al.  ULTRAVIOLET PROPERTIES OF GALACTIC GLOBULAR CLUSTERS WITH GALEX. I. THE COLOR–MAGNITUDE DIAGRAMS , 2012, 1201.5377.

[55]  L. Girardi,et al.  The VISIR@VLT Mid-IR view of 47Tuc ⋆ A further step in solving the puzzle of RGB mass loss , 2011, 1110.2458.

[56]  Kjetil Dohlen,et al.  The ZIMPOL high contrast imaging polarimeter for SPHERE: system test results , 2011, Astronomical Telescopes and Instrumentation.

[57]  Heidelberg,et al.  VERY LARGE TELESCOPE/NACO POLARIMETRIC DIFFERENTIAL IMAGING OF HD100546—DISK STRUCTURE AND DUST GRAIN PROPERTIES BETWEEN 10 AND 140 AU , 2011, 1106.1101.

[58]  Christophe Verinaud,et al.  EPOL: the exoplanet polarimeter for EPICS at the E-ELT , 2010, Astronomical Telescopes + Instrumentation.

[59]  Kjetil Dohlen,et al.  The performance of the calibration module for SPHERE , 2010, Astronomical Telescopes + Instrumentation.

[60]  J. P. Woerdman,et al.  Duality between spatial and angular shift in optical reflection , 2009, 0911.4691.

[61]  Glenn Schneider,et al.  THE CASE OF AB AURIGAE’S DISK IN POLARIZED LIGHT: IS THERE TRULY A GAP? , 2009, 0911.1130.

[62]  Kjetil Dohlen,et al.  Calibrating SPHERE, the exo-planet imager for the VLT , 2009, Optical Engineering + Applications.

[63]  S. Höfner,et al.  Winds of M-type AGB stars driven by micron-sized grains , 2008 .

[64]  V. De Caprio,et al.  SPHERE IFS: the spectro differential imager of the VLT for exoplanets search , 2008, Astronomical Telescopes + Instrumentation.

[65]  Kjetil Dohlen,et al.  The infra-red dual imaging and spectrograph for SPHERE: design and performance , 2008, Astronomical Telescopes + Instrumentation.

[66]  Kjetil Dohlen,et al.  Prototyping coronagraphs for exoplanet characterization with SPHERE , 2008, Astronomical Telescopes + Instrumentation.

[67]  J. G. Robertson,et al.  GETTING LUCKY WITH ADAPTIVE OPTICS: FAST ADAPTIVE OPTICS IMAGE SELECTION IN THE VISIBLE WITH A LARGE TELESCOPE , 2008, 0805.1921.

[68]  P. Bendjoya,et al.  The close-in companion of the fast rotating Be star Achernar , 2008, 0804.3465.

[69]  W. Traub,et al.  First Images of R Aquarii and Its Asymmetric H2O Shell , 2008, 0801.3488.

[70]  J. Tinbergen Accurate Optical Polarimetry on the Nasmyth Platform , 2007 .

[71]  T. Fusco,et al.  Calibration and precompensation of noncommon path aberrations for extreme adaptive optics. , 2007, Journal of the Optical Society of America. A, Optics, image science, and vision.

[72]  Etienne Artigau,et al.  A New Algorithm for Point-Spread Function Subtraction in High-Contrast Imaging: A Demonstration with Angular Differential Imaging , 2007, astro-ph/0702697.

[73]  J Berthier,et al.  Shape, size and multiplicity of main-belt asteroids I. Keck Adaptive Optics survey. , 2006, Icarus.

[74]  G. Meylan,et al.  Hubble Space Telescope Proper Motions and Stellar Dynamics in the Core of the Globular Cluster 47 Tucanae , 2006, astro-ph/0607597.

[75]  Fortunat Joos,et al.  Limb polarization of Uranus and Neptune - I. Imaging polarimetry and comparison with analytic models , 2006 .

[76]  S. Cabrit,et al.  Which jet launching mechanism(s) in T Tauri stars , 2006, astro-ph/0604053.

[77]  B. Macintosh,et al.  Angular Differential Imaging: A Powerful High-Contrast Imaging Technique , 2005, astro-ph/0512335.

[78]  P. Tuthill,et al.  Dust scattering in the Miras R Car and RR Sco resolved by optical interferometric polarimetry , 2005, astro-ph/0505112.

[79]  Thomas Henning,et al.  CHEOPS/ZIMPOL: a VLT instrument study for the polarimetric search of scattered light from extrasolar planets , 2004, SPIE Astronomical Telescopes + Instrumentation.

[80]  Anthony Boccaletti,et al.  The Four‐Quadrant Phase Mask Coronagraph. III. Laboratory Performance , 2003 .

[81]  Achim M. Gandorfer,et al.  Achromatic liquid crystal polarization modulator , 2003, SPIE Astronomical Telescopes + Instrumentation.

[82]  K. Serkowski,et al.  Polarimetry of 167 Cool Variable Stars: Data , 2001 .

[83]  J. Kuhn,et al.  Imaging Polarimetric Observations of a New Circumstellar Disk System , 2001, astro-ph/0105239.

[84]  A. Labeyrie,et al.  The Four‐Quadrant Phase‐Mask Coronagraph. I. Principle , 2000 .

[85]  A. Sivaramakrishnan,et al.  Ground-based Coronagraphy with High-order Adaptive Optics , 2000, Astronomical Telescopes and Instrumentation.

[86]  Achim M. Gandorfer,et al.  Ferroelectric retarders as an alternative to piezoelastic modulators for use in solar Stokes vector polarimetry , 1999 .

[87]  H. M. Dyck,et al.  Angular Size Measurements of 18 Mira Variable Stars at 2.2 ( , 1996 .

[88]  C. U. Keller,et al.  New window for spectroscopy , 1996, Nature.

[89]  H. Ferguson,et al.  Observations of the Ultraviolet-Bright Star in 47 Tucanae with the Hopkins Ultraviolet Telescope , 1995 .

[90]  Peter G. Tuthill,et al.  New diameter measurements of 10 Mira Variables: implications for effective temperatures, atmospheric structure and pulsation modes , 1995 .

[91]  H. Povel,et al.  Imaging Stokes polarimetry with piezoelastic modulators and charge-coupled-device image sensors , 1995 .

[92]  J. Stenflo,et al.  Charge-coupled device image sensor as a demodulator in a 2-D polarimeter with a piezoelastic modulator. , 1990, Applied optics.

[93]  Laurent Drissen,et al.  The variability of polarized standard stars , 1988 .

[94]  D. Axon,et al.  Electronographic polarimetry: the Durham polarimeter , 1983 .

[95]  M. Breger,et al.  On standard polarized stars. , 1982 .

[96]  J. Hough,et al.  A SIMULTANEOUS INFRARED/OPTICAL POLARIMETER. , 1982 .

[97]  J. C. Kemp,et al.  A PHOTOELASTIC-MODULATOR POLARIMETER AT PINE MOUNTAIN OBSERVATORY , 1981 .

[98]  L. J. Cox The Compensation of Instrumental Polarization by Inclined Mirrors , 1976 .

[99]  Jeremy Bailey,et al.  Systematic variations in the wavelength dependence of interstellar linear polarization , 1976 .

[100]  D. S. Mathewson,et al.  Wavelength dependence of interstellar polarization and ratio of total to selective extinction. , 1975 .

[101]  I. Appenzeller Polarimetric observations of nearby stars in the directions of the galactic poles and the galactic plane. , 1968 .

[102]  J. Beuzit,et al.  Multiwavelength VLT/SPHERE polarimetric differential imaging , 2016 .

[103]  W. Brandner,et al.  Lucky Imaging in Astronomy , 2016 .

[104]  B. Whitney,et al.  Stellar polarimetry : from birth to death : Madison, Wisconsin, USA, 27-30 June 2011 , 2012 .

[105]  Jan Swevers,et al.  Ground-based and airborne instrumentation for astronomy , 2010 .

[106]  Michael Wegner,et al.  Ground-based and Airborne Instrumentation for Astronomy III , 2010 .

[107]  Franco Joos,et al.  Polarimetry of gas planets , 2007 .

[108]  C. Marois,et al.  A NEW ALGORITHM FOR POINT SPREAD FUNCTION SUBTRACTION IN HIGH-CONTRAST IMAGING: A DEMONSTRATION WITH ANGULAR DIFFERENTIAL IMAGING , 2007 .

[109]  Edward Collett,et al.  Polarized light. Fundamentals and applications , 1993 .

[110]  K. Artmann Berechnung der Seitenversetzung des totalreflektierten Strahles , 1948 .

[111]  F. Goos,et al.  Ein neuer und fundamentaler Versuch zur Totalreflexion , 1947 .