Core crystallization and pile-up in the cooling sequence of evolving white dwarfs
Pier-Emmanuel Tremblay, Gilles Fontaine, Nicola Pietro Gentile, Fusillo, Bart H. Dunlap, Boris T. G\"ansicke, Mark A. Hollands, J. J. Hermes,, Thomas R. Marsh, Elena Cukanovaite, Tim Cunningham

TL;DR
This study provides observational evidence of core crystallization in white dwarfs, showing a cooling delay caused by latent heat release and element sedimentation, which enhances age estimation of stellar populations.
Contribution
First direct observational evidence of white dwarf core crystallization effects, including latent heat release and sedimentation, using Gaia data and modeling.
Findings
Detected a pile-up in white dwarf cooling sequence near the Sun.
Inferred crystallization causes latent heat release delaying cooling.
Found sedimentation further slows cooling, refining age estimates.
Abstract
White dwarfs are stellar embers depleted of nuclear energy sources that cool over billions of years. These stars, which are supported by electron degeneracy pressure, reach densities of 1e7 grams per cubic centimetre in their cores. It has been predicted that a first-order phase transition occurs during white-dwarf cooling, leading to the crystallization of the non-degenerate carbon and oxygen ions in the core, which releases a considerable amount of latent heat and delays the cooling process by about one billion years. However, no direct observational evidence of this effect has been reported so far. Here we report the presence of a pile-up in the cooling sequence of evolving white dwarfs within 100 parsecs of the Sun, determined using photometry and parallax data from the Gaia satellite. Using modelling, we infer that this pile-up arises from the release of latent heat as the cores of…
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