2012
DOI: 10.1073/pnas.1211784109
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Vacancy-stabilized crystalline order in hard cubes

Abstract: We examine the effect of vacancies on the phase behavior and structure of systems consisting of hard cubes using event-driven molecular dynamics and Monte Carlo simulations. We find a firstorder phase transition between a fluid and a simple cubic crystal phase that is stabilized by a surprisingly large number of vacancies, reaching a net vacancy concentration of approximately 6.4% near bulk coexistence. Remarkably, we find that vacancies increase the positional order in the system. Finally, we show that the va… Show more

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Cited by 122 publications
(165 citation statements)
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References 24 publications
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“…In accordance with the observations of Ref. [36], we find that f def ð Þ ¼ f def ð0Þ þ f 1 represents the data accurately, suggesting weak interactions between vacancies. Here, f def ð0Þ is the free energy of a system with no vacancies and f 1 > 0 is the free-energy cost to create a single vacancy.…”
supporting
confidence: 75%
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“…In accordance with the observations of Ref. [36], we find that f def ð Þ ¼ f def ð0Þ þ f 1 represents the data accurately, suggesting weak interactions between vacancies. Here, f def ð0Þ is the free energy of a system with no vacancies and f 1 > 0 is the free-energy cost to create a single vacancy.…”
supporting
confidence: 75%
“…The vacancies are delocalized along rows in the crystal lattice, in accordance with the results of Ref. [36], since the particles can easily move with respect to each other and fill up the vacated space.…”
supporting
confidence: 70%
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