Document detail
ID

oai:arXiv.org:2406.13037

Topic
Astrophysics - Earth and Planetary... Astrophysics - Instrumentation and...
Author
Alei, E. Quanz, S. P. Konrad, B. S. Garvin, E. O. Kofman, V. Mandell, A. Angerhausen, D. Mollière, P. Meyer, M. R. Robinson, T. Rugheimer, S. Collaboration, the LIFE
Category

sciences: astrophysics

Year

2024

listing date

9/25/2024

Keywords
o$_3$ h$_2$o atmospheric earth life retrievals provide constrain exoplanets astrophysics
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Abstract

Following the recommendations to NASA and ESA, the search for life on exoplanets will be a priority in the next decades.

Two direct imaging space mission concepts are being developed: the Habitable Worlds Observatory (HWO) and the Large Interferometer for Exoplanets (LIFE).

HWO focuses on reflected light spectra in the ultraviolet/visible/near-infrared (UV/VIS/NIR), while LIFE captures the mid-infrared (MIR) emission of temperate exoplanets.

We assess the potential of HWO and LIFE in characterizing a cloud-free Earth twin orbiting a Sun-like star at 10 pc, both separately and synergistically, aiming to quantify the increase in information from joint atmospheric retrievals on a habitable planet.

We perform Bayesian retrievals on simulated data from an HWO-like and a LIFE-like mission separately, then jointly, considering the baseline spectral resolutions currently assumed for these concepts and using two increasingly complex noise simulations.

HWO would constrain H$_2$O, O$_2$, and O$_3$, in the atmosphere, with ~ 100 K uncertainty on the temperature profile.

LIFE would constrain CO$_2$, H$_2$O, O$_3$ and provide constraints on the thermal atmospheric structure and surface temperature (~ 10 K uncertainty).

Both missions would provide an upper limit on CH$_4$.

Joint retrievals on HWO and LIFE data would accurately define the atmospheric thermal profile and planetary parameters, decisively constrain CO$_2$, H$_2$O, O$_2$, and O$_3$, and weakly constrain CO and CH$_4$.

The detection significance is greater or equal to single-instrument retrievals.

Both missions provide specific information to characterize a terrestrial habitable exoplanet, but the scientific yield is maximized with synergistic UV/VIS/NIR+MIR observations.

Using HWO and LIFE together will provide stronger constraints on biosignatures and life indicators, potentially transforming the search for life in the universe.

;Comment: 16 pages (main text, incl. 12 figures) + appendix; accepted for publication in A&A (current version: post 1st revision).

Thirteenth paper of LIFE telescope series

Alei, E.,Quanz, S. P.,Konrad, B. S.,Garvin, E. O.,Kofman, V.,Mandell, A.,Angerhausen, D.,Mollière, P.,Meyer, M. R.,Robinson, T.,Rugheimer, S.,Collaboration, the LIFE, 2024, Large Interferometer For Exoplanets (LIFE): XIII. The Value of Combining Thermal Emission and Reflected Light for the Characterization of Earth Twins

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