AN IMAGE-PLANE ALGORITHM FOR JWST'S NON-REDUNDANT APERTURE MASK DATA

The high angular resolution technique of non-redundant masking (NRM) or aperture masking interferometry (AMI) has yielded images of faint protoplanetary companions of nearby stars from the ground. AMI on James Webb Space Telescope (JWST)'s Near Infrared Imager and Slitless Spectrograph (NIRISS) has a lower thermal background than ground-based facilites and does not suffer from atmospheric instability. NIRISS AMI images are likely to have 90 - 95% Strehl ratio between 2.77 and 4.8 micron. In this paper we quantify factors that limit the raw point source contrast of JWST NRM. We develop an analytic model of the NRM point spread function which includes different optical path delays (pistons) between mask holes and fit the model parameters with image plane data. It enables a straightforward way to exclude bad pixels, is suited to limited fields of view, and can incorporate effects such as intra-pixel sensitivity variations. We simulate various sources of noise to estimate their effect on the standard deviation of closure phase, sigma_CP (a proxy for binary point source contrast). If sigma_CP < 10^-4 radians --- a contrast ratio of 10 magnitudes --- young accreting gas giant planets (e.g. in the nearby Taurus star-forming region) could be imaged with JWST NIRISS. We show the feasibility of using NIRISS' NRM with the sub-Nyquist sampled F277W, which would enable some exoplanet chemistry characterization. In the presence of small piston errors, the dominant sources of closure phase error (depending on pixel sampling, and filter bandwidth) are flat field errors and unmodeled variations in intra-pixel sensitivity. The in-flight stability of NIRISS will determine how well these errors can be calibrated by observing a point source. Our results help develop efficient observing strategies for space-based NRM.

[1]  Frantz Martinache,et al.  Planetary system and star formation science with non-redundant masking on JWST , 2010, Astronomical Telescopes + Instrumentation.

[2]  Neil Rowlands,et al.  The JWST Fine Guidance Sensor (FGS) and Near-Infrared Imager and Slitless Spectrograph (NIRISS) , 2012, Other Conferences.

[3]  Lynne A. Hillenbrand,et al.  Initial Results from the Palomar Adaptive Optics Survey of Young Solar-Type Stars: A Brown Dwarf and Three Stellar Companions , 2004 .

[4]  Anand Sivaramakrishnan,et al.  Flat field errors and intra-pixel sensitivities for non-redundant aperture masking interferometry on JWST NIRISS , 2013, Optics & Photonics - Optical Engineering + Applications.

[5]  P. Tuthill,et al.  Michelson Interferometry with the Keck I Telescope , 2000 .

[6]  Matthew D. Lallo,et al.  Simulating point spread functions for the James Webb Space Telescope with WebbPSF , 2012, Other Conferences.

[7]  F. Martinache,et al.  VISUAL ORBIT OF THE LOW-MASS BINARY GJ 164 AB , 2008, 0809.0895.

[8]  Peter G. Tuthill,et al.  Wavelength calibration and closure phases with the Gemini Planet Imager IFS using its non-redundant mask , 2013, Optics & Photonics - Optical Engineering + Applications.

[9]  Maurice te Plate,et al.  Cryogenic pupil alignment test architecture for the James Webb Space Telescope integrated science instrument module , 2008, Astronomical Telescopes + Instrumentation.

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

[11]  Spitzer Infrared Spectrograph Observations of L, M, and T Dwarfs , 2004 .

[12]  Frantz Martinache,et al.  TWO WIDE PLANETARY-MASS COMPANIONS TO SOLAR-TYPE STARS IN UPPER SCORPIUS , 2010, 1011.2201.

[13]  Frantz Martinache,et al.  Precision Masses of the Low-Mass Binary System GJ 623 , 2006, astro-ph/0612138.

[14]  Paul A. Lightsey,et al.  Optical performance for the James Webb Space Telescope , 2004, SPIE Astronomical Telescopes + Instrumentation.

[15]  M. Teague Irradiance moments: their propagation and use for unique retrieval of phase , 1982 .

[16]  Michael J. Ireland,et al.  Phase errors in diffraction-limited imaging: contrast limits for sparse aperture masking , 2013 .

[17]  M. Langlois,et al.  Society of Photo-Optical Instrumentation Engineers , 2005 .

[18]  Laird M. Close,et al.  THE GEMINI NICI PLANET-FINDING CAMPAIGN: THE FREQUENCY OF GIANT PLANETS AROUND YOUNG B AND A STARS , 2013, Proceedings of the International Astronomical Union.

[19]  Frantz Martinache,et al.  KERNEL PHASE IN FIZEAU INTERFEROMETRY , 2010 .

[20]  Tim Hardy,et al.  Intra-pixel response of infrared detector arrays for JWST , 2008, Astronomical Telescopes + Instrumentation.

[21]  David A. Golimowski,et al.  THE 0.8–14.5 μm SPECTRA OF MID-L TO MID-T DWARFS: DIAGNOSTICS OF EFFECTIVE TEMPERATURE, GRAIN SEDIMENTATION, GAS TRANSPORT, AND SURFACE GRAVITY , 2009, 0906.2991.

[22]  T. Lauer The Photometry of Undersampled Point‐Spread Functions , 1999, astro-ph/9907100.

[23]  Laird M. Close,et al.  THE GEMINI PLANET-FINDING CAMPAIGN: THE FREQUENCY OF GIANT PLANETS AROUND DEBRIS DISK STARS , 2013, 1307.0818.

[24]  David Lafreniere,et al.  ACTIVE GALACTIC NUCLEUS AND QUASAR SCIENCE WITH APERTURE MASKING INTERFEROMETRY ON THE JAMES WEBB SPACE TELESCOPE , 2014, 1401.0545.

[25]  A. Vigan,et al.  The International Deep Planet Survey - I. The frequency of wide-orbit massive planets around A-stars , 2012, 1206.4048.

[26]  C. A. Haniff,et al.  Closure phase in high-resolution optical imaging , 1986, Nature.

[27]  Adam L. Kraus,et al.  SPARSE APERTURE MASKING OBSERVATIONS OF THE FL Cha PRE-TRANSITIONAL DISK , 2012, 1211.5721.

[28]  Julien H. Girard,et al.  A COMBINED VERY LARGE TELESCOPE AND GEMINI STUDY OF THE ATMOSPHERE OF THE DIRECTLY IMAGED PLANET, β PICTORIS b , 2013, 1306.0610.

[29]  J. R. Houck,et al.  A Spitzer Infrared Spectrograph Spectral Sequence of M, L, and T Dwarfs , 2006 .

[30]  Michael J. Ireland,et al.  OBSERVATIONAL CONSTRAINTS ON COMPANIONS INSIDE OF 10 AU IN THE HR 8799 PLANETARY SYSTEM , 2011 .

[31]  Stephanie Thalberg,et al.  Interferometry And Synthesis In Radio Astronomy , 2016 .

[32]  Frantz Martinache,et al.  The Subaru Coronagraphic Extreme-AO Project , 2009, Optical Engineering + Applications.

[33]  C. Fabron,et al.  SPHERE: a planet finder instrument for the VLT , 2006, Astronomical Telescopes + Instrumentation.

[34]  F. Martinache,et al.  Dynamical Mass of GJ 802B: A Brown Dwarf in a Triple System , 2008, 0801.1525.

[35]  Frantz Martinache,et al.  DANCING IN THE DARK: NEW BROWN DWARF BINARIES FROM KERNEL PHASE INTERFEROMETRY , 2013, 1302.6682.

[36]  G. Chauvin,et al.  A companion candidate in the gap of the T Chamaeleontis transitional disk , 2011, 1102.4982.

[37]  John E. Krist,et al.  Aperture mask interferometry with an integral field spectrograph , 2012, Other Conferences.

[38]  Laird M. Close,et al.  THE GEMINI/NICI PLANET-FINDING CAMPAIGN: THE FREQUENCY OF PLANETS AROUND YOUNG MOVING GROUP STARS , 2013, 1309.1462.

[39]  A. Lagrange,et al.  Sparse aperture masking at the VLT. I. Faint companion detection limits for the two debris disk stars HD 92945 and HD 141569 , 2011, 1107.1426.

[40]  Frantz Martinache,et al.  Kernel-phases for high-contrast detection beyond the resolution limit , 2011, Optical Engineering + Applications.

[41]  Frantz Martinache,et al.  A CLOSE COMPANION SEARCH AROUND L DWARFS USING APERTURE MASKING INTERFEROMETRY AND PALOMAR LASER GUIDE STAR ADAPTIVE OPTICS , 2010, 1004.0223.

[42]  Malcolm Smith,et al.  The Gemini Planet Imager: integration and status , 2012, Other Conferences.

[43]  Frantz Martinache,et al.  Direct detection of the brown dwarf GJ 802B with adaptive optics masking interferometry , 2006 .

[44]  D. S. Acton,et al.  Integrated telescope model for the James Webb Space Telescope , 2012, Other Conferences.

[45]  M. Ireland,et al.  LkCa 15: A YOUNG EXOPLANET CAUGHT AT FORMATION? , 2011, 1110.3808.

[46]  C. A. Haniff,et al.  The first images from optical aperture synthesis , 1987, Nature.

[47]  Frantz Martinache,et al.  Non-redundant Aperture Masking Interferometry (AMI) and segment phasing with JWST-NIRISS , 2012, Other Conferences.

[48]  Alexis Carlotti,et al.  Gemini Planet Imager coronagraph testbed results , 2010, Astronomical Telescopes + Instrumentation.

[49]  Rene Doyon,et al.  Imaging Young Giant Planets From Ground and Space , 2010, 1001.0351.

[50]  G. Neugebauer,et al.  Diffraction-Limited Imaging with Ground-Based Optical Telescopes , 1988 .

[51]  Russell B. Makidon,et al.  Towards observing extrasolar giant-planet environments with JWST , 2008, Astronomical Telescopes + Instrumentation.

[52]  Anand Sivaramakrishnan,et al.  Analyzing the first JWST-NIRISS NRM test data , 2014, Astronomical Telescopes and Instrumentation.

[53]  Gautam Vasisht,et al.  Project 1640: the world's first ExAO coronagraphic hyperspectral imager for comparative planetary science , 2012, Other Conferences.