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Grid of pseudo-2D chemistry models for tidally locked exoplanets -- II. The role of photochemistry

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arxiv 2203.11233 v1 pith:WGTZLYHD submitted 2022-03-21 astro-ph.EP

Grid of pseudo-2D chemistry models for tidally locked exoplanets -- II. The role of photochemistry

classification astro-ph.EP
keywords photochemistryexoplanetsphotochemicalaffectedchangechemicalcompositioncool
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Photochemistry is expected to change the chemical composition of the upper atmospheres of irradiated exoplanets through the dissociation of species, such as methane and ammonia, and the association of others, such as hydrogen cyanide. Although primarily the high altitude day side should be affected by photochemistry, it is still unclear how dynamical processes transport photochemical species throughout the atmosphere, and how these chemical disequilibrium effects scale with different parameters. In this work we investigate the influence of photochemistry in a two-dimensional context, by synthesizing a grid of photochemical models across a large range of temperatures. We find that photochemistry can strongly change the atmospheric composition, even up to depths of several bar in cool exoplanets. We further identify a sweet spot for the photochemical production of hydrogen cyanide and acetylene, two important haze precursors, between effective temperatures of 800 and 1400 K. The night sides of most cool planets (effective temperature < 1800 K) are shown to host photochemistry products, transported from the day side by horizontal advection. Synthetic transmission spectra are only marginally affected by photochemistry, but we suggest that observational studies probing higher altitudes, such as high-resolution spectroscopy, take photochemistry into account.

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  1. Phase-dependent chemistry of WASP-43 b revealed with a suite of one-, two-, and three-dimensional models

    astro-ph.EP 2026-07 conditional novelty 6.0

    Horizontal quenching at wind speeds ≳500 m/s, plus carbon-sulfur chemistry, explains the MIRI non-detection of night-side methane on WASP-43 b without requiring high metallicity.