Temperature, surface roughness and anisotropy effects on the tangential momentum accomodation coefficient between Pt(100) AND Ar

T. Tung Pham 1 Quy-Dong To 1 Guy Lauriat 1 Céline Léonard 1 V. H. Vo 2
1 MSME - Laboratoire de Modélisation et Simulation Multi Echelle
2 Chercheur indépendant
Abstract : In this paper, we study the influence of Platinum (100) surface morphology on the Tangential Momentum Accommodation Coefficient (TMAC) with Argon usingMolecular Dynamics method (MD). The coefficient is computed directly by beaming Ar atoms into the surfaces and measuring the relative momentum changes. The wall is maintained at a constant temper-ature and its interaction with the gas atoms is governed by the Kulginov potential [1]. To capture correctly the surface effect of the walls and atoms trajectory, the Quantum Sutton-Chen multi-body potential is employed between the Pt atoms [2]. Effects of wall surface morphology and incident direction, temperature are considered in this work and provide full information of gas-wall interaction.
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T. Tung Pham, Quy-Dong To, Guy Lauriat, Céline Léonard, V. H. Vo. Temperature, surface roughness and anisotropy effects on the tangential momentum accomodation coefficient between Pt(100) AND Ar. 3 rd European Conference on Microfluidics - Microfluidics 2012 - Heidelberg, December 3-5, 2012, Dec 2012, Germany. pp.1. ⟨hal-00749274v2⟩

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