Large Interferometer For Exoplanets (LIFE): II. Signal simulation, signal extraction and fundamental exoplanet parameters from single epoch observations
Auteurs : Felix Dannert, Maurice Ottiger, Sascha P. Quanz, Romain Laugier, Emile Fontanet, Adrian Gheorghe, Olivier Absil, Colin Dandumont, Denis Defrère, Carlos Gascón, Adrian M. Glauser, Jens Kammerer, Tim Lichtenberg, Hendrik Linz, Jerôme Loicq, the LIFE collaboration
Résumé : The Large Interferometer For Exoplanets (LIFE) initiative is developing the science and a technology roadmap for an ambitious space mission featuring a space-based mid-infrared (MIR) nulling interferometer in order to detect the thermal emission of hundreds of exoplanets and characterize their atmospheres. In order to quantify the science potential of such a mission, in particular in the context of technical trade-offs, an instrument simulator is required. In addition, signal extraction algorithms are needed to verify that exoplanet properties (e.g., angular separation, spectral flux) contained in simulated exoplanet datasets can be accurately retrieved. We present LIFEsim, a software tool developed for simulating observations of exoplanetary systems with an MIR space-based nulling interferometer. It includes astrophysical noise sources (i.e., stellar leakage and thermal emission from local zodiacal and exo-zodiacal dust) and offers the flexibility to include instrumental noise terms in the future. LIFEsim provides an accessible way for predicting the expected SNR of future observations as a function of various key instrument and target parameters. The SNRs of the extracted spectra are photon-noise dominated, as expected from our current simulations. From single epoch observations in our mock survey of small ($R < 1.5 R_\mathrm{Earth}$) planets orbiting within the habitable zones of their stars, we find that typical uncertainties in the estimated effective temperature of the exoplanets are $\lesssim$10\%, for the exoplanet radius $\lesssim$20\%, and for the separation from the host star $\lesssim$2\%. SNR values obtained in the signal extraction process deviate less than 10\% from purely photon-counting statistics based SNRs. (abridged)
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