Machaín, Paloma (2015) Procesos atomísticos en el formación de la aleación superficial Sn-Cu (0 0 1) / Atomistic processes in the formation of the superficial obstruction Sn-Cu (0 0 1). Maestría en Ciencias Físicas, Universidad Nacional de Cuyo, Instituto Balseiro.
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| PDF (Tesis) Español 15Mb |
| Tipo de objeto: | Tesis (Maestría en Ciencias Físicas) |
|---|---|
| Palabras Clave: | Alloys; Aleaciones; Diffusion; Difusión; Atoms; Átomos; [Adatoms; Adátomos; Atomic processes; Procesos atómicos; Surface physics; Física de superficies; Kohn y Sham model; Modelo de Kohn y Shan; Hohemberg-Kohm theorem; Teorema de Hohemberg-Kohm] |
| Referencias: | [1] H. Ascolani. Apuntes de microscopía de efecto túnel. 2009. [2] J. Bardeen. Tunnelling from a many-particle point of view. Physical Review letters, 6:57-59, 1961. [3] S. Baroni. Neb slides. quantum espresso spring school. 2015. [4] E. AlShamaileh C.J. Barnes E. McLoughlin, A.A. Cafolla. A re-interpretation of the en(100)/sn surface phase diagram. Surface Science, 482:1431-1439, 2001. [5] K. Oura el al. Surface science. pages 325-369. [6] Quantum Espresso. Proyecto comunitario de sofware para simulaciones cuánticas de alta calidad basado en la teoría funcional densidad coordinado por paolo gian- nozzi. ver más en http://wow.quantum-espresso.org and http://wow.pwscf.org. [7] A.A. Cafolla et al. Observation of an anti-phase domain structure in the cul 0 0/sn surface alloy system. Surface Science, 544:121-133, 2003. [8] A.J. Mayne et al. An scanning tunnelling microscopy study of the diffusion of a single or a pair of atomic vacancies. Surface Science, 486:226-238, 2001. [9] Harald Brune et al. Microscopic view of epitaxial metal growth. Surface Science Reports, 31:121-229, 1998. [10] J. Norskov et al. Density functional theory in surface chemistry and catalysis. National Academy of Sciences. Proceedings, 108:937-943, 2011. [11] L. Anderson et al. The importance of pb-vacancy attractions on di8iision in the pb/cu(001) surface alloy. Surface Science, 538:53, 2003. [12] M. L. Grant et al. Diffusion kinetics in the pd/cu (001) surface alloy. P /tp6tCt2l Series Lett ers, 86:4588-4591, 2001. [13] C. Boragno K. Kern H. Brune, H. R oder. Microscopic view of nucleation on surfaces. Physical denies Letters, 73:1955-1958, 1994. [14] P. Hohenberg and W. Kohn. Inhomogeneous electron gas. Phpsical Series B, 136:864-871, 1964. [15]J. Martnez-Blanco E. G. Michel J. D. Fuhr, J. E. Gayone and H. Ascolani. Struc- tural and electronic properties of (322) r45 sn/en(100): Density functional theory and scanning tunneling microscopy,. [16] H. Ascolani A. Tejeda C. Quirós G. Panaccione T. Balasubramanian P. Segovia J. Martínez Blanco, V. loco and E. G. Michel. Permi surface gapping and nesting in the surface phase transition of sn/cu(100). Physical Series B, 72, 2005. [17] K. Burke J. P. Perdew and M. Ernzerhof. Generalized gradient approximation made simple. Physical Series letters, 77:3865-68, 1996. [18] K. Burke J. P. Perdew and M. Ernzerhof. Errata: Generalized gradient approxi- mation made simple. Physical Review Letters, 78:1396, 1997. [19] D. T. Pierce J.A. Stroscio. Scaling of diffusion-mediated island growth in iron-on- iron homoepitaxy. Physical Series B, 49:8522, 1994. [20] W. Kohn and L.J. Sham. Self-consistent equations including exchange and correlation effects. Physical Series, 140:1133-1138, 1965. [21] F. D. Murnaghan. The compressibility of media under extreme pressures. National Academy oJ Sciences. Proceedings, 30:244-247, 1944. [22] M. Wutting T. Flores, S. Junghans. Atomic mechanisms for the diBusion of mn atoms incorporated in the cu (100) surface: an stm study. Surface Science, 371:1-13, 1997. [23] R. van Gastel et al. Nothing moves a surface: Vacancy mediated surface difhision. Physical Review Letters, 86:1562-1565, 2001. [24] R. van Gastel et al. Vacancy diffusion in the cu (001) surface i: an stm study. Surface Science, 521:10-25, 2002. [25] G. Zampieri. Notas de clase-física de superficies. 2009. |
| Materias: | Física > Física de superficie |
| Divisiones: | Gcia. de área de Investigación y aplicaciones no nucleares > Gcia. de Física > Interacción de la radiación con la materia > Colisiones atómicas y físicas de superficies |
| Código ID: | 1130 |
| Depositado Por: | Tamara Cárcamo |
| Depositado En: | 23 Aug 2023 12:48 |
| Última Modificación: | 23 Aug 2023 12:48 |
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