Deuterium Escape on Photoevaporating Sub-Neptunes

The Astrophysical Journal Letters Pub Date : 2023-08-01 DOI:10.3847/2041-8213/acee01

P. Gu, Howard Chen

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Abstract

We investigate the evolution of the deuterium-to-hydrogen (D/H) mass ratio driven by EUV photoevaporation of hydrogen-rich atmospheres of close-in sub-Neptunes around solar-type stars. For the first time, the diffusion-limited approach in conjunction with energy-limited photoevaporation is considered in evaluating deuterium escape from evolving exoplanet H/He envelopes. We find that the planets with smaller initial gas envelopes and thus smaller sizes can lead to weaker atmospheric escape, which facilitates hydrogen–deuterium fractionation. Specifically, in our grid of simulations with a low envelope mass fraction of less than 0.005, a low-mass sub-Neptune (4–5 M ⊕) at about 0.25–0.4 au or a high-mass sub-Neptune (10–15 M ⊕) at about 0.1–0.25 au can increase the D/H values by greater than 20% over 7.5 Gyr. Akin to the helium-enhanced envelopes of sub-Neptunes due to photoevaporating escape, the planets along the upper boundary of the radius valley are the best targets to detect high D/H ratios. The ratio can rise by a factor of ≲1.65 within 7.5 Gyr in our grid of evolutionary calculations. The D/H ratio is expected to be higher in thinner envelopes as long as the planets do not become bare rocky cores.

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光蒸发亚海王星上的氘逸出

我们研究了在太阳型恒星周围的近距离亚海王星富氢大气的EUV光蒸发驱动下氘氢质量比(D/H)的演化。首次将扩散限制方法与能量限制光蒸发相结合，用于评估演化中的系外行星H/He包层的氘逸出。我们发现具有较小的初始气体包层的行星，因此较小的尺寸可以导致较弱的大气逸出，这有利于氢-氘的分离。具体来说，在我们的低包络质量分数小于0.005的模拟网格中，约0.25-0.4 au的低质量海王星(4-5 M⊕)或约0.1-0.25 au的高质量海王星(10-15 M⊕)可以使D/H值在7.5 Gyr上增加20%以上。类似于次海王星由于光蒸发逃逸而形成的氦增强包层，沿着半径谷上界的行星是探测高D/H比的最佳目标。在我们的进化计算网格中，该比率可以在7.5 Gyr内上升一个系数= 1.65。只要行星没有变成光秃秃的岩石内核，在更薄的包层中，D/H比预计会更高。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Astrophysical Journal Letters

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