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Author

Reis, Mario, 1976- author.

Title Fundamentals of magnetism / by Mario Reis.

Imprint

Amsterdam : Academic Press, 2013.

Connect to
Available to Pittsburg State University patrons only.

Copies

Location	Call No.	OPAC Message	Status
Axe Elsevier ScienceDirect Ebook	Electronic Book	---	Available

Edition	First edition.
Description	1 online resource (xv, 264 pages)
	text txt rdacontent
	computer c rdamedia
	online resource cr rdacarrier
Bibliography	Includes bibliographical references and index.
Summary	The Fundamentals of Magnetism is a truly unique reference text, that explores the study of magnetism and magnetic behavior with a depth that no other book can provide. It covers the most detailed descriptions of the fundamentals of magnetism providing an emphasis on statistical mechanics which is absolutely critical for understanding magnetic behavior. The books covers the classical areas of basic magnetism, including Landau Theory and magnetic interactions, but features a more concise and easy-to-read style. Perfect for upper-level graduate students and industry researchers, The Fundamentals of Magnetism provides a solid background of fundamentals with clear and in-depth explanations, in comparison to a brief overview before moving into more advanced topics. Many applications directly for the purpose of a deep understanding of magnetism and other non-cooperative phenomena help readers make the transition from theory to application and experimentation effortless. This book is the true 'study' of the fundamentals of magnetism, enabling readers to move into far more advance aspects of magnetism more easily. - Offers accessible, self-contained content without needing to seek other sources on topics like Fermion fas; angular moment algebra, etc - Includes over 60 pages devoted to an in-depth discussion of diamagnetism and paramagnetism, topics usually described in only few pages in other books Incorporates numerous applications including Molecular Magnets and other non-cooperative phenomena.
Note	Print version record.
Contents	1. Introduction -- 1.1. Quantities and units -- 1.2. Types of magnetic arrangement -- 2. Hamiltonian of an Electron Under an Electromagnetic Field -- 2.1. Classical approach -- 2.2. Quantum-relativistic approach: Dirac equation -- 2.A. Maxwell equations and the gauges -- 3. Angular Momenta -- 3.1. Angular momentum algebra -- 3.2. Addition of angular momenta -- 3.3. Magnetic moment -- 3.4. Angular momenta of atoms -- 3.A. Hydrogen-like atoms -- 4. Thermodynamics -- 4.1. Thermodynamic laws -- 4.2. Entropy -- 4.3. Thermodynamic potentials -- 4.4. Maxwell relationships -- 4.5. Thermodynamic square -- 4.6. Magnetic specific heat -- 5. Statistical Mechanics -- 5.1. Micro canonical ensemble -- 5.2. Canonical ensemble -- 5.3. Indistinguishable and distinguishable particles -- 5.4. Thermodynamic quantities of N distinguishable particles -- 5.5. Grand canonical ensemble -- 5.6. Grand partition function: further developments -- 6. Fermions Gas.
	6.1. Wave function, eigenvalues, and density of states -- 6.2. Grand canonical potential and thermodynamic quantities -- 6.3. Fermi level and chemical potential -- 6.4. High temperature limit -- 7. Diamagnetism -- 7.1. Localized diamagnetism -- 7.2. Itinerant diamagnetism -- 7.A. Experimental example -- 7.B. Landau levels -- 8. Paramagnetism -- 8.1. Localized paramagnetism -- 8.2. Itinerant paramagnetism -- 8.3.van Vleck paramagnetism -- 8.A. Perturbation theory -- 8.B. Rare-earth paramagnetism: an example -- 9. Magnetic Interactions -- 9.1. Direct exchange -- 9.2. Indirect exchange -- 9.3. Asymmetric: Spin-orbit coupling -- 9.4. Zeeman interaction -- 9.5. The D tensor -- 10. Long-Range Ordering -- 10.1. Ferromagnetism -- 10.2. Antiferromagnetism -- 10.3. Ferrimagnetism -- 10.A. Experimental examples -- 10.B. Stoner criterion for some metals -- 10.C. Magnetocaloric Effect -- 10.D. Undesired temperature independent susceptibility -- 11. Landau Theory -- 11.1. Fundamentals -- 11.2. Second-order phase transition -- 11.3. First-order phase transition -- 12. Molecular Magnetism -- 12.1. Zero-dimensional magnets -- 12.2. One-dimensional magnets -- 12.3. Single-molecule magnets -- 12.A. Ising model: analytic solution -- 12.B. Addition of N spins -- Appendix A Useful Mathematical Functions -- Appendix B Exercises -- Appendix C Solution of Exercises.
Access	Use copy Restrictions unspecified star MiAaHDL
Reproduction	Electronic reproduction. [S.l.] : HathiTrust Digital Library, 2011. MiAaHDL
System Details	Master and use copy. Digital master created according to Benchmark for Faithful Digital Reproductions of Monographs and Serials, Version 1. Digital Library Federation, December 2002. http://purl.oclc.org/DLF/benchrepro0212 MiAaHDL
Processing Action	digitized 2011 HathiTrust Digital Library committed to preserve pda MiAaHDL
Language	English.
Subject	Magnetism -- Textbooks.
	SCIENCE -- Physics -- Magnetism.
	Magnetism
	Magnetismus
Genre/Form	Textbooks
	Textbooks.
Other Form:	Print version: Reis, Mario, 1976- Fundamentals of magnetism. 1st ed. Amsterdam : Academic Press, 2013 9780124055452 (DLC) 2012044516 (OCoLC)828332505
ISBN	9780124058590 (electronic bk.)
	0124058590 (electronic bk.)
	9780124055452
	0124055451
Standard No.	AU@ 000051785986
	AU@ 000062546666
	DEBBG BV042318149
	DEBSZ 405349297
	DEBSZ 481273883
	NZ1 15194377