Melting of crystalline solids

Apai; Berry; Born; Brown; Buffat; Burakovsky; Cahn; Cahn; Chakravarty; Chen; Cho; Christenson; Cotterill; Couchman; Cynn; Dash; Dash; Dewaele; Dewaele; Dorogokupets; Edwards; Faraday; Fei; Friedel; Garai; Garai; Garai; Garai; Garai; Gilvarry; Jozsef Garai; Kenichi; Lai; Lawson; Lindemann; Luo; Mays; Mei; Mei; Ming; Mohazzabi; Nix; Pawlow; Pawlow; Ross; Schall; Schmidt; Schmidt; Sciani; Shank; Takagi; Turnbull; Turnbull; Vermaak; Waseda; Weyl; Zha; Zhao

research

Melting of crystalline solids

Authors: Apai
Berry
Born
Brown
Buffat
Burakovsky
Cahn
Cahn
Chakravarty
Chen
Cho
Christenson
Cotterill
Couchman
Cynn
Dash
Dash
Dewaele
Dewaele
Dorogokupets
Edwards
Faraday
Fei
Friedel
Garai
Garai
Garai
Garai
Garai
Gilvarry
Jozsef Garai
Kenichi
Lai
Lawson
Lindemann
Luo
Mays
Mei
Mei
Ming
Mohazzabi
Nix
Pawlow
Pawlow
Ross
Schall
Schmidt
Schmidt
Sciani
Shank
Takagi
Turnbull
Turnbull
Vermaak
Waseda
Weyl
Zha
Zhao
Publication date: 9 March 2009
Publisher: 'Elsevier BV'
Doi

Abstract

It is suggested that at the melting temperature the thermal phonon vibration is in self-resonance with the lattice vibration of the surface atomic/molecular layer. This self resonance occurs at a well defined temperature and triggers the detachment of the atomic/molecular sheet or platelets from the surface of the crystal. Thermodynamic data of five substances is used to test this hypothesis. The calculated average phonon vibrational wavelengths are equal with or harmonics of the d-spacing of the atomic/molecular sheets. The proposed model is able to explain all of the features of melting.Comment: supercooling and ultra-fast speed of the phase transition is added as requirements for the explanation of meltin

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info:doi/10.1016%2Fj.ssc.2010....

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