Buoyant crystals halt the cooling of white dwarf stars

arXiv - PHYS - Plasma Physics Pub Date : 2024-09-06 DOI:arxiv-2409.04419

Antoine Bédard, Simon Blouin, Sihao Cheng

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Abstract

White dwarfs are stellar remnants devoid of a nuclear energy source, gradually cooling over billions of years and eventually freezing into a solid state from the inside out. Recently, it was discovered that a population of freezing white dwarfs maintains a constant luminosity for a duration comparable to the age of the universe, signaling the presence of a powerful yet unknown energy source that inhibits the cooling. For certain core compositions, the freezing process is predicted to trigger a solid-liquid distillation mechanism, due to the solid phase being depleted in heavy impurities. The crystals thus formed are buoyant and float up, thereby displacing heavier liquid downward and releasing gravitational energy. Here we show that distillation interrupts the cooling for billions of years and explains all the observational properties of the unusual delayed population. With a steady luminosity surpassing that of some main-sequence stars, these white dwarfs defy their conventional portrayal as dead stars. Our results highlight the existence of peculiar merger remnants and have profound implications for the use of white dwarfs in dating stellar populations.

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浮力晶体阻止白矮星冷却

白矮星是没有核能源的恒星残骸，经过数十亿年逐渐冷却，最终由内而外冻结成固态。最近，研究人员发现，冷冻白矮星群体在与宇宙年龄相当的时间内保持恒定的光度，这表明存在一个强大但未知的能量源，它抑制了白矮星的冷却。对于某些内核成分，由于固相中的重杂质被耗尽，冷冻过程预计会引发固液蒸馏机制。由此形成的晶体具有浮力并上浮，从而将较重的液体向下置换并释放引力能。在这里，我们展示了蒸馏过程中断了数十亿年的冷却，并解释了异常延迟群的所有观测特性。这些白矮星的稳定光度超过了一些主序星的光度，打破了它们作为死星的传统形象。我们的研究结果突显了奇特合并残留物的存在，并对利用白矮星测定恒星群的年代有着深远的影响。

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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arXiv - PHYS - Plasma Physics

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