A Fresnel propagation analysis of NFIRAOS/IRIS high-contrast exoplanet imaging capabilities

Christian Marois; Jean-Pierre Véran; Carlos Correia

doi:10.1117/12.926826

13 September 2012 A Fresnel propagation analysis of NFIRAOS/IRIS high-contrast exoplanet imaging capabilities

Christian Marois, Jean-Pierre Véran, Carlos Correia

Proceedings Volume 8447, Adaptive Optics Systems III; 844726 (2012) https://doi.org/10.1117/12.926826
Event: SPIE Astronomical Telescopes + Instrumentation, 2012, Amsterdam, Netherlands

Abstract

The thirty meter telescope (TMT) has the potential to find new planetary systems and to study them in greater details. It could also possibly image super-Earth planets around the closest stars or still accreting distant protoplanets around stars in very young star forming regions. Since no first generation dedicated exoplanet finding instrument has been selected for the TMT, initial direct exoplanet imaging will have to rely on the NFIRAOS facility adaptive optics (AO) system and IRIS spectro-imaging near-infrared (NIR) camera. End to-end Fresnel NFIRAOS simulations are presented using their current optical designs to evaluate the system multi-wavelength high-contrast imaging capabilities. Long exposures have been simulated using the expected AO-corrected phase screens and the estimated speckle lifetime. It is shown that NFIRAOS/IRIS may achieve contrasts close to the Gemini planet imager (GPI, an optimized NIR planet-finding instrument that will soon be installed on the Gemini South 8-m telescope), but needs to rely on multi-wavelength processing (by a factor 50) to achieve that goal, a challenging requirement. Without a coronograph and a better treatment of the in-band static speckle noise, it is unlikely that NFIRAOS/ IRIS will be able to achieve GPI-like contrasts at very small inner working angles, which is potentially accessible with a large 30-meter telescope. However, TMT, with its bigger aperture and better angular resolution, along with the current NFIRAOS/ IRIS designs, should be able to acquire higher SNR spectra and achieve three times better astrometric accuracy than GPI for medium to bright planets, resulting in better atmospheric characterization and faster orbital parameter determination of a sample of GPI planets.

Citation Download Citation

Christian Marois, Jean-Pierre Véran, and Carlos Correia "A Fresnel propagation analysis of NFIRAOS/IRIS high-contrast exoplanet imaging capabilities", Proc. SPIE 8447, Adaptive Optics Systems III, 844726 (13 September 2012); https://doi.org/10.1117/12.926826

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