From chemistry to solid state physics to biology, the applications of Electron Paramagnetic Resonance (EPR) are relevant to many areas. This unified treatment is based on the spin Hamiltonian approach and makes extensive use of irreducible tensor techniques to analyze systems in which two or more spi... read more
Our Editors also recommend:
General Chemistry by Linus Pauling Revised third edition of classic first-year text by Nobel laureate. Covers atomic and molecular structure, quantum mechanics, statistical mechanics, and thermodynamics correlated with descriptive chemistry. Problems.
Group Theory and Chemistry by David M. Bishop Concise, self-contained introduction to group theory and its applications to chemical problems. Symmetry, matrices, molecular vibrations, transition metal chemistry, more. Relevant math included. Advanced-undergraduate/graduate-level. 1973 edition.
Spins in Chemistry by Roy McWeeny Profile of evolution of the "spin" concept from its role in quantum mechanics to its assimilation into the field of chemistry examines spin and valence, spin Hamiltonians, more. 1970 edition.
The Development of Modern Chemistry by Aaron J. Ihde From ancient Greek theory to the 20th century, this authoritative history shows how major chemists, their discoveries, and political, economic, and social developments transformed chemistry into modern science. An ideal supplementary text for high-school and college-level courses. 209 illustrations.
Symmetry in Chemistry by Hans H. Jaffé, Milton Orchin Developed in an essentially nonmathematical way, this text covers symmetry elements and operations, multiple symmetry operations, multiplication tables and point groups, group theory applications, and crystal symmetry. 1977 edition.
Condensed Matter Physics by A. Isihara More than a graduate text and advanced research guide on condensed matter physics, this volume emphasizes applications to a variety of systems rather than theoretical derivations and techniques. 1991 edition.
Symmetry Principles in Solid State and Molecular Physics by Melvin Lax High-level text applies group theory to physics problems, develops methods for solving molecular vibration problems and for determining the form of crystal tensors, develops translational properties of crystals, more. 1974 edition.
Elementary Quantum Chemistry, Second Edition by Frank L. Pilar Useful introductory course and reference covers origins of quantum theory, Schrödinger wave equation, quantum mechanics of simple systems, electron spin, quantum states of atoms, Hartree-Fock self-consistent field method, more. 1990 edition.
Handbook of Computational Quantum Chemistry by David B. Cook This comprehensive text provides upper-level undergraduates and graduate students with an accessible introduction to the implementation of quantum ideas in molecular modeling, exploring practical applications alongside theoretical explanations. 1998 edition.
Problems and Solutions in Quantum Chemistry and Physics by Charles S. Johnson, Jr., Lee G. Pedersen Unusually varied problems, with detailed solutions, cover quantum mechanics, wave mechanics, angular momentum, molecular spectroscopy, scattering theory, more. 280 problems, plus 139 supplementary exercises.
Foundations of Laser Spectroscopy by Stig Stenholm A simple presentation of the theoretical foundations of steady-state laser spectroscopy, this text helps students to apply theory to calculations with a systematic series of examples and exercises. 1984 edition.
Microwave Spectroscopy by C. H. Townes, A.L. Schawlow Two Nobel Laureates present a systematic, comprehensive account of the theory, techniques, experimental data, and interpretation involved in the study of microwave spectroscopy. Ideal as reference or text. 1955 edition.
Applications of Tensor Analysis by A. J. McConnell Text explains fundamental ideas and notation of tensor theory; covers geometrical treatment of tensor algebra; introduces theory of differentiation of tensors; and applies mathematics to dynamics, electricity, elasticity and hydrodynamics. 685 exercises.
Cartesian Tensors: An Introduction by G. Temple This undergraduate-level text provides an introduction to isotropic tensors and spinor analysis, with numerous examples that illustrate the general theory and indicate certain extensions and applications. 1960 edition.
An Introduction to Linear Algebra and Tensors by M. A. Akivis, V. V. Goldberg, Richard A. Silverman Eminently readable, completely elementary treatment begins with linear spaces and ends with analytic geometry, covering multilinear forms, tensors, linear transformation, and more. 250 problems, most with hints and answers. 1972 edition.
Introduction to Tensor Calculus, Relativity and Cosmology by D. F. Lawden Elementary introduction emphasizes aspects that students find most difficult: tensors in curved spaces and application to general relativity theory; black holes; gravitational waves; more. Solution guide available upon request. 1982 edition.
Introduction to Vector and Tensor Analysis by Robert C. Wrede Examines general Cartesian coordinates, the cross product, Einstein's special theory of relativity, bases in general coordinate systems, maxima and minima of functions of two variables, line integrals, integral theorems, and more. 1963 edition.
The Irreducible Tensor Method for Molecular Symmetry Groups by J. S. Griffith Suitable for advanced undergraduates and graduate students, this text covers V coefficients for symmetry groups, W coefficients, irreducible products, two-electron formulae for the octahedral group, X coefficients, more. 1962 edition.
Tensor Analysis for Physicists, Second Edition by J. A. Schouten Rigorous, advanced mathematical explanation of classic tensor analysis, written by a founder of tensor calculus. Well-chosen physical examples of the theory involve elasticity, classical dynamics, relativity, and Dirac's matrix calculus. 1954 edition.
Tensor Analysis on Manifolds by Richard L. Bishop, Samuel I. Goldberg Balanced between formal and abstract approaches, this text covers function-theoretical and algebraic aspects, manifolds and integration theory, adaptation to classical mechanics, more. "First-rate." — American Mathematical Monthly. 1980 edition.
Tensor Calculus: A Concise Course by Barry Spain Compact exposition of the fundamental results in the theory of tensors; also illustrates the power of the tensor technique by applications to differential geometry, elasticity, and relativity. 1960 edition.
Tensor Calculus by J. L. Synge, A. Schild Fundamental introduction of absolute differential calculus and for those interested in applications of tensor calculus to mathematical physics and engineering. Topics include spaces and tensors; basic operations in Riemannian space, curvature of space, more.
Tensors, Differential Forms, and Variational Principles by David Lovelock, Hanno Rund Incisive, self-contained account of tensor analysis and the calculus of exterior differential forms, interaction between the concept of invariance and the calculus of variations. Emphasis is on analytical techniques. Includes problems.
Vector and Tensor Analysis by George E. Hay A clear introduction to classic vector and tensor analysis for students of engineering and mathematical physics. Chapters range from elementary operations and applications of geometry to application of vectors to mechanics.
Vector and Tensor Analysis with Applications by A. I. Borisenko, I. E. Tarapov, Richard A. Silverman Concise, readable text ranges from definition of vectors and discussion of algebraic operations on vectors to the concept of tensor and algebraic operations on tensors. Worked-out problems and solutions. 1968 edition.
Vectors, Tensors and the Basic Equations of Fluid Mechanics by Rutherford Aris Introductory text, geared toward advanced undergraduate and graduate students, applies mathematics of Cartesian and general tensors to physical field theories and demonstrates them in terms of the theory of fluid mechanics. 1962 edition.
From chemistry to solid state physics to biology, the applications of Electron Paramagnetic Resonance (EPR) are relevant to many areas. This unified treatment is based on the spin Hamiltonian approach and makes extensive use of irreducible tensor techniques to analyze systems in which two or more spins are magnetically coupled. This edition contains a new Introduction by coauthor Dante Gatteschi, a pioneer and scholar of molecular magnetism. The first two chapters review the foundations of exchange interactions, followed by examinations of the spectra of pairs and clusters, relaxation in oligonuclear species, approaches to infinite lattices, and how EPR can provide firsthand information on spin dynamics. Subsequent chapters explore experimental data, magnetically coupled systems, low-dimensional materials, and the use of EPR to characterize excitons and exciton motion. More than 200 figures and tables appear throughout the book, which concludes with a pair of helpful appendices.
Reprint of the Springer-Verlag, Berlin, 1990 edition.
This book was printed in the United States of America.
Dover books are made to last a lifetime. Our US book-manufacturing partners produce the highest quality books in the world and they create jobs for our fellow citizens. Manufacturing in the United States also ensures that our books are printed in an environmentally friendly fashion, on paper sourced from responsibly managed forests.