Computational nanoscience : applications for molecules, clusters, and solids / Kálmán Varga and Joseph A. Driscoll.
Tipo de material: TextoIdioma: Inglés Detalles de publicación: Cambridge ; Cambridge University Press, 2011.Descripción: xii, 431 p. : ill. ; 26 cmISBN:- 9781107001701
- 620.502 22
Tipo de ítem | Biblioteca actual | Signatura | Copia número | Estado | Fecha de vencimiento | Código de barras | Reserva de ítems | |
---|---|---|---|---|---|---|---|---|
Colección general | Biblioteca Yachay Tech | 620.50285 V2971c 2011 (Navegar estantería(Abre debajo)) | Ej. 1 | Disponible | 002645 | |||
Colección general | Biblioteca Yachay Tech | 620.50285 V2971c 2011 (Navegar estantería(Abre debajo)) | Ej. 2 | Disponible | 002646 | |||
Colección general | Biblioteca Yachay Tech | 620.50285 V2971c 2011 (Navegar estantería(Abre debajo)) | Ej. 3 | Disponible | 003535 |
Includes bibliographical references (p. [409]-427) and index.
Machine generated contents note: Preface; Part I. 1D Problems: 1. Variational solution of the Schrödinger equation; 2. Solution of bound state problems using a grid; 3. Solution of the Schrödinger equation for scattering states; 4. Periodic potentials: band structure in 1D; 5. Solution of time-dependent problems in quantum mechanics; 6. Solution of Poisson's equation; Part II. 2D and 3D Systems: 7. 3D real space approach: from quantum dots to Bose-Einstein condensates; 8. Variational calculations in 2D: quantum dots; 9. Variational calculations in 3D: atoms and molecules; 10. Monte Carlo calculations; 11. Molecular dynamics simulations; 12. Tight binding approach to electronic structure calculations; 13. Plane wave density functional calculations; 14. Density functional calculations with atomic orbitals; 15. Real-space density functional calculations; 16. Time-dependent density functional calculations; 17. Scattering and transport in nanostructures; 18. Numerical linear algebra; Appendix: code descriptions; References; Index.
"Computer simulation is an indispensable research tool in modeling, understanding and predicting nanoscale phenomena. However, the advanced computer codes used by researchers are too complicated for graduate students wanting to understand computer simulations of physical systems. This book gives students the tools to develop their own codes. Describing advanced algorithms, the book is ideal for students in computational physics, quantum mechanics, atomic and molecular physics, and condensed matter theory. It contains a wide variety of practical examples of varying complexity to help readers at all levels of experience. An algorithm library in Fortran 90, available online at www.cambridge.org/9781107001701, implements the advanced computational approaches described in the text to solve physical problems"--
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