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势函数是用来描述介观层次系统中分子或原子间相互作用的一种数学模型,是在介观层次上进行材料显微结构分子动力学模拟的关键。针对贵金属及其合金总结了分子动力学模拟研究中常用势函数的枑型、数学形式和基本参数,介绍了各种势函数在实际研究中的具体应用情况,分析讨论了贵金属势函数的构建和应用中急需解决的问题、以及势函数研究的发展趋势。

Potential function is a kind of mathematical model used for describing the interactions between molecules or atoms in system at the mesoscopic scale. It’s crucial in studying the micro-structure of materials at the mesoscopic scale in molecular dynamic simulation. Some common interatomic potentials used in precious metals and their alloys are given in the present paper, including their specific functions, the parameters, the characteristics as well as practical applications. Finally, issues which need to work out were discussed in the process of building the potential models, and the tendency of future development of interatomic potentials of noble metals is put forward.

参考文献

[1] Zhen S;Davies G J .Calculation of the Lennard-Jones n-m potential energy parameters for metals[J].Physica Status Solidi(A) Applied Research,1983,78(2):595-605.
[2] 罗旋,费维栋,王煜明.固体中的原子间相互作用势[J].物理,1997(01):14.
[3] Flahive P G;Graham W R .Pair potential calculations of single atom self-diffusion activation energies[J].Surface Science,1980,91(2):449-462.
[4] 谢佑卿.固体中多原子相互作用的新势能函数[J].中国科学A辑,1992(8):880-890.
[5] 陶辉锦,谢佑卿,彭红建,余方新,李晓波,聂耀庄,刘锐锋.贵金属Cu、Ag、Au的电子结构和物理性质[J].中国有色金属学报,2006(06):951-957.
[6] 谢佑卿,杨昕昕,彭坤.贵金属铑和铱的电子结构和物理性质[J].贵金属,2001(04):7-12.
[7] 彭红建,谢佑卿,余方新.金属Ni、Pd、Pt的原子状态和性质[J].贵金属,2006(04):1-5,11.
[8] PENG Hong-jian,ZHOU Jiao-lian,XIE You-qing.Thermodynamic properties and heat capacity of Ru metal in HCP, FCC, BCC and liquid state[J].中国有色金属学报(英文版),2010(10):1950-1956.
[9] Chen Nanxian.M?bius Inversion in Physics[M].Singapore:World Scientific Publishing Co.Pte.Ltd,2012:183-230.
[10] Maddox J .M?bius and problems of inversion[J].NATURE,1990,344(6265):377-377.
[11] Foiles S M;Baskes M I;Daw M S .Embedded-atom-method functions for the fcc metals Cu,Ag,Au,Ni,Pd,Pt and their alloys[J].Physical Review B,1986,33(12):7983-7990.
[12] Liu C L;Cohen J M;Adams J B et al.EAM study of surface self-diffusion of single atoms of fcc metals Ni,Cu,Al,Ag,Au,Pd and Pt[J].Surface Science,1991,253(1/3):334-344.
[13] 郭俊梅,邓德国.钯的熔化结晶及玻璃转化的分子动力学模拟[J].贵金属,1996(02):1-8.
[14] Zhang R F;Shen Y X;Gong H R et al.Atomistic modeling of metastable phase selection of a highly immiscible Ag-W system[J].Phys Soc Japan,2004,73(7):2023-2027.
[15] Yi-Xiong SHEN;Ling-Ti KONG;Hao-Ran GONG;Bai-Xin LIU .Structural Stability and the Correlation of Lattice Constant versus Tantalum Concentration of the Ag-Based Fcc Solid Solutions Studied by Molecular Dynamics Simulation[J].Japanese journal of applied physics,2004(5a):2589-2593.
[16] Baskes M I .Modified embedded-atom potentials for cubic materials and impurities[J].Physical Review B,1992,46(5):2727-2742.
[17] Johnson R A .Analytic nearest-neighbor model for fcc metals[J].Physical Review B,1988,37(8):3924-3931.
[18] 陈舜麒.计算材料学基础[M].北京:化学工业出版社,2005:125-225.
[19] Deng HQ.;Hu WY.;Shu XL.;Zhao LH.;Zhang BW. .Monte Carlo simulation of the surface segregation of Pt-Pd and Pt-Ir alloys with an analytic embedded-atom method[J].Surface Science: A Journal Devoted to the Physics and Chemistry of Interfaces,2002(1/3):177-185.
[20] Yu Chen;Shuzhi Liao;Huiqiu Deng .The Rh influence on the surface distribution of the ternary alloy Pt-Pd-Rh[J].Applied Surface Science: A Journal Devoted to the Properties of Interfaces in Relation to the Synthesis and Behaviour of Materials,2007(14):6074-6079.
[21] Li, JH;Dai, XD;Liang, SH;Tai, KP;Kong, Y;Liu, BX .Interatomic potentials of the binary transition metal systems and some applications in materials physics[J].Physics Reports: A Review Section of Physics Letters (Section C),2008(1/3):1-134.
[22] Willaime F;Massobrio C .Development of an n-body interatomic potential for hcp and bcc zirconium[J].Physical Review B:Condensed Matter,1991,43(14):11653-11665.
[23] Rosato V;Massimo C;Legrand B .Thermodynamical and structural properties of fcc transition metals using a simple tight-binding model[J].Philosophical Magazine A:Physics of Condensed Matter Defects and Mechanical Properties,1989,59(2):321-336.
[24] Fabrizio Cleri;Vittorio Rosato .Tight-binding potentials for transition metals and alloys[J].Physical Review B,1993,48(1):22-33.
[25] H.B. Guo;B.X. Liu .Atomic structures of nonequilibrium alloys in an immiscible Co-Ag system[J].Journal of Materials Research,2004(5):1364-1368.
[26] H. B. Guo;J. H. Li;B. X. Liu .Atomistic modeling and thermodynamic interpretation of the bridging phenomenon observed in the Co-Au system[J].Physical review, B. Condensed matter and materials physics,2004(19):195434.1-195434.5.
[27] Ackland G J;Vitek V .Many-body potentials and atomic-scale relaxations in noble-metal alloys[J].Physical Review B:Condensed Matter,1990,41(15):10324-10333.
[28] Rebonato R;Welch D O;Hatcher R D et al.Modification of the finnis sinclair potentials for highly deformed and defective transition metals[J].Philosophical Magazine A:Physics of Condensed Matter Defects and Mechanical Properties,1987,55(5):655-667.
[29] Ackland G J;Tichy G;Vitek V et al.Simple n-body potentials for the noble metals and nickel[J].Philosophical Magazine A:Physics of Condensed Matter Defects and Mechanical Properties,1987,56(6):735-756.
[30] Dai XD;Kong Y;Li JH;Liu BX .Extended Finnis-Sinclair potential for bcc and fcc metals and alloys[J].Journal of Physics. Condensed Matter,2006(19):4527-4542.
[31] Tomanek D;Aligia A A;Balseiro C A .Calculation of elastic strain and electronic effects on surface segregation[J].Physical Review B:Condensed Matter,1985,32(8):5051-5056.
[32] Rosato V;Ciccotti G;Pontikis V .Molecular-dynamics study of surface pre-melting effects[J].Physical Review B:Condensed Matter,1986,33(3):1860-1870.
[33] Rosato V;Massimo C;Legrand B .Thermodynamical and structural properties of fcc transition metals using a simple tight-binding model[J].Philosophical Magazine A:Physics of Condensed Matter Defects and Mechanical Properties,1989,59(2):321-336.
[34] Fabrizio C;Vittorio R .Tight-binding potentials for transition metals and alloys[J].Physical Review B,1993,48(1):22-33.
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