Impact sculpting of the early martian atmosphere

Oliver Shorttle, Homa Saeidfirozeh, Paul Rimmer, Vojtĕch Laitl, Petr Kubelík, Lukáš Petera, Martin Ferus
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Abstract

Intense bombardment of solar system planets in the immediate aftermath of protoplanetary disk dissipation has played a key role in their atmospheric evolution. During this epoch, energetic collisions will have removed significant masses of gas from rocky planet atmospheres. Noble gases are powerful tracers of this early atmospheric history, xenon in particular, which on Mars and Earth shows significant depletions and isotopic fractionations relative to the lighter noble gasses. To evaluate the effect of impacts on the loss and fractionation of xenon, we measure its ionization and recombination efficiency by laser shock and apply these constraints to model impact-driven atmospheric escape on Mars. We demonstrate that impact bombardment within the first $200$ to $300\,\text{Myr}$ of solar system history generates the observed Xe depletion and isotope fractionation of the modern martian atmosphere. This process may also explain the Xe depletion recorded in Earth's deep mantle and provides a latest date for the timing of giant planet instability.
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早期火星大气层的撞击雕刻
太阳系行星在原行星盘消散之后立即受到强烈轰击,这在它们的大气演化过程中起到了关键作用。在这一时期,高能碰撞将从岩质行星大气中清除大量气体。惰性气体是这一早期大气历史的有力示踪剂,尤其是氙,在火星和地球上,与较轻的惰性气体相比,氙显示出显著的耗竭和同位素分馏。为了评估撞击对氙的损耗和分馏的影响,我们通过激光冲击测量了氙的电离和重组效率,并将这些约束条件用于模拟火星上撞击驱动的大气逃逸。我们证明,太阳系历史上最初200美元到300,text{Myr}美元的撞击轰击产生了所观测到的现代火星大气的氙耗竭和同位素分馏。这一过程也可以解释地球深地幔中记录的Xe耗竭,并为巨行星不稳定的时间提供了一个最新的日期。
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