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    Theory of Surface Melting and Non-Melting

    New search for: Tosatti, E.

    Abstract The idea that crystal melting might be a surface-initiated process when the liquid wets its own solid is very old [1,2]. A massive amount of macroscopic and semimacroscopic evidence for the appearance, just below the triple point temperature T M of a quasi-liquid film at the solid-gas interface, particularly of molecular crystals, has been collected by the chemical physicists [3]. More recently, with the advent of powerful surface physics tools, the study of this problem has begun at the microscopic level. Several crystal surfaces which melt -i.e., where a growing quasi-liquid layer forms very near but below T M - have been identified [4]-[7]. Other surfaces have also been found, which exhibit what might be called “non-melting”, Le. no quasi-liquid layer appears at all [8], or if it appears, it does not grow as TM is approached [9].

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    Theory of Surface Melting and Non-Melting

    New search for: Tosatti, E.

    Abstract The idea that crystal melting might be a surface-initiated process when the liquid wets its own solid is very old [1,2]. A massive amount of macroscopic and semimacroscopic evidence for the appearance, just below the triple point temperature T M of a quasi-liquid film at the solid-gas interface, particularly of molecular crystals, has been collected by the chemical physicists [3]. More recently, with the advent of powerful surface physics tools, the study of this problem has begun at the microscopic level. Several crystal surfaces which melt -i.e., where a growing quasi-liquid layer forms very near but below T M - have been identified [4]-[7]. Other surfaces have also been found, which exhibit what might be called “non-melting”, Le. no quasi-liquid layer appears at all [8], or if it appears, it does not grow as TM is approached [9].

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    Theory of Surface Melting and Non-Melting

    New search for: Tosatti, E.

    Abstract The idea that crystal melting might be a surface-initiated process when the liquid wets its own solid is very old [1,2]. A massive amount of macroscopic and semimacroscopic evidence for the appearance, just below the triple point temperature T M of a quasi-liquid film at the solid-gas interface, particularly of molecular crystals, has been collected by the chemical physicists [3]. More recently, with the advent of powerful surface physics tools, the study of this problem has begun at the microscopic level. Several crystal surfaces which melt -i.e., where a growing quasi-liquid layer forms very near but below T M - have been identified [4]-[7]. Other surfaces have also been found, which exhibit what might be called “non-melting”, Le. no quasi-liquid layer appears at all [8], or if it appears, it does not grow as TM is approached [9].

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    Title:

    Theory of Surface Melting and Non-Melting

    Contributors:

    Tosatti, E. (author)

    Published in:

    The Structure of Surfaces II ; 535-544

    Springer Series in Surface Sciences ; 11

    Publication date:

    1988-01-01

    Size:

    10 pages

    ISBN:

    978-3-642-73345-1 , 978-3-642-73343-7

    ISSN:

    0931-5195

    DOI:

    https://doi.org/10.1007/978-3-642-73343-7_88

    Type of media:

    Article/Chapter (Book)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Surface Free Energy , Pair Correlation Function , Surface Melting , Liquid Layer Thickness , Thouless Transition Physics , Surface and Interface Science, Thin Films , Surfaces and Interfaces, Thin Films , Crystallography

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