By C. R. A. Catlow, W. C. Mackrodt
Read or Download Computer Simulation of Solids PDF
Best solid-state physics books
This article contains insurance of significant issues that aren't normally featured in different textbooks on condensed subject physics; those comprise surfaces, the quantum corridor impact and superfluidity. the writer avoids advanced formalism, similar to Green's services, that can imprecise the underlying physics, and as a substitute emphasizes primary actual reasoning.
Researchers in academia and who're attracted to strategies for measuring intermolecular forces will locate this an important textual content. It provides a assessment of contemporary strength spectroscopy, together with basics of intermolecular forces, technical features of the strength measurements, and functional functions.
Superconductivity is a quantum phenomenon that manifests itself in fabrics exhibiting 0 electric resistance less than a attribute temperature leading to the potential of an electrical present to run continuously via one of these fabric with out the necessity for an influence resource. Such fabrics are used widely in clinical and gear purposes, e.
Ugly's electric References, 2014 variation is designed for use as an on-the-job reference. Used all over the world via electricians, engineers, contractors, designers, upkeep staff, teachers, and the army; Ugly's comprises the main generally required electric info in an easy-to-read and easy-to-access layout.
- Roadmap of Scanning Probe Microscopy (NanoScience and Technology)
- Magnetic Oscillations in Metals (Cambridge Monographs on Physics)
- The Mathematical Theory of Symmetry in Solids: Representation Theory for Point Groups and Space Groups (Oxford Classic Texts in the Physical Sciences)
- Condensed Matter Physics, 2nd Edition
- Quantum Information Theory [thesis]
- Random Fields and Spin Glasses: A Field Theory Approach
Additional resources for Computer Simulation of Solids
And Fischer, W. (2007) Orthorhombic sphere packings. II. Bivariant lattice complexes. , A63, 354–364. Sowa, H. (2009) Three new types of interpenetrating sphere packings. , A65, 326–327. A. M. (2009) Topological relations between three-periodic nets. II. Binodal nets. , A65, 202–212. T. (2009) Three-dimensional Euclidean nets from two-dimensional hyperbolic tilings: kaleidoscopic examples. , A65, 81–108. A. (2006) A method for hierarchical comparative analysis of crystal structures. , A62, 356–364.
B63, 791–802. M. (2008) Interpenetrated 3D networks of H-bonded organic species: a systematic analysis of the Cambridge structural database. Cryst. , 8, 519–539. M. (2008) Interpenetrated three-dimensional hydrogen-bonded networks from metal–organic molecular and one- or two-dimensional polymeric motifs. , 10, 1822–1838. A. (2008) Hydrogen-bonded frameworks in molecular metal–organic crystals: the network approach. Z. , 223, 371–381. A. (2006) Multipurpose crystallochemical analysis with the program package TOPOS.
8, 740–752. M. (2004) Interpenetrating metal–organic and inorganic 3D networks: a computer-aided systematic investigation. Part I. Analysis of the Cambridge structural database. , 6, 377–395. M. (2005) Reticular chemistry: occurrence and taxonomy of nets and grammar for the References 22. 23. 24. 25. 26. 27. 28. 29. 30. design of frameworks. Acc. Chem. , 38, 176–182. M. (2005) Interpenetrating metal–organic and inorganic 3D networks: a computer-aided systematic investigation. Part II. Analysis of the inorganic crystal structure database (ICSD).