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Theory of Heavy-Fermion Compounds - Theory of Strongly Correlated Fermi-Systems (Hardcover): Miron Ya. Amusia, Konstantin G.... Theory of Heavy-Fermion Compounds - Theory of Strongly Correlated Fermi-Systems (Hardcover)
Miron Ya. Amusia, Konstantin G. Popov, Vasily R. Shaginyan, Vladimir A. Stephanovich
R4,194 R3,472 Discovery Miles 34 720 Save R722 (17%) Ships in 12 - 17 working days

This book explains modern and interesting physics in heavy-fermion (HF) compounds to graduate students and researchers in condensed matter physics. It presents a theory of heavy-fermion (HF) compounds such as HF metals, quantum spin liquids, quasicrystals and two-dimensional Fermi systems. The basic low-temperature properties and the scaling behavior of the compounds are described within the framework of the theory of fermion condensation quantum phase transition (FCQPT). Upon reading the book, the reader finds that HF compounds with quite different microscopic nature exhibit the same non-Fermi liquid behavior, while the data collected on very different HF systems have a universal scaling behavior, and these compounds are unexpectedly uniform despite their diversity. For the reader's convenience, the analysis of compounds is carried out in the context of salient experimental results. The numerous calculations of the non-Fermi liquid behavior, thermodynamic, relaxation and transport properties, being in good agreement with experimental facts, offer the reader solid grounds to learn the theory's applications. Finally, the reader will learn that FCQPT develops unexpectedly simple, yet completely good description of HF compounds.

Theory of Heavy-Fermion Compounds - Theory of Strongly Correlated Fermi-Systems (Paperback, Softcover reprint of the original... Theory of Heavy-Fermion Compounds - Theory of Strongly Correlated Fermi-Systems (Paperback, Softcover reprint of the original 1st ed. 2015)
Miron Ya. Amusia, Konstantin G. Popov, Vasily R. Shaginyan, Vladimir A. Stephanovich
R3,839 Discovery Miles 38 390 Ships in 10 - 15 working days

This book explains modern and interesting physics in heavy-fermion (HF) compounds to graduate students and researchers in condensed matter physics. It presents a theory of heavy-fermion (HF) compounds such as HF metals, quantum spin liquids, quasicrystals and two-dimensional Fermi systems. The basic low-temperature properties and the scaling behavior of the compounds are described within the framework of the theory of fermion condensation quantum phase transition (FCQPT). Upon reading the book, the reader finds that HF compounds with quite different microscopic nature exhibit the same non-Fermi liquid behavior, while the data collected on very different HF systems have a universal scaling behavior, and these compounds are unexpectedly uniform despite their diversity. For the reader's convenience, the analysis of compounds is carried out in the context of salient experimental results. The numerous calculations of the non-Fermi liquid behavior, thermodynamic, relaxation and transport properties, being in good agreement with experimental facts, offer the reader solid grounds to learn the theory's applications. Finally, the reader will learn that FCQPT develops unexpectedly simple, yet completely good description of HF compounds.

Computation of Atomic and Molecular Processes - Introducing the ATOM-M Software Suite (Paperback, 1st ed. 2021): Miron Ya.... Computation of Atomic and Molecular Processes - Introducing the ATOM-M Software Suite (Paperback, 1st ed. 2021)
Miron Ya. Amusia, Larissa V Chernysheva
R4,522 Discovery Miles 45 220 Ships in 10 - 15 working days

This book presents numerical methods for solving a wide range of problems associated with the structure of atoms and simplest molecules, and their interaction with electromagnetic radiation, electrons, and other particles. It introduces the ATOM-M software package, presenting a unified software suite, written in Fortran, for carrying out precise atomic and molecular numeric calculations. The book shows how to apply these numerical methods to obtain many different characteristics of atoms, molecules, and the various processes within which they interact. In an entirely self-sufficient approach, it teaches the reader how to use the codes provided to build atomic and molecular systems from the ground up and obtain the resulting one-electron wave functions. The computational programs presented and made available in this book allow calculations in the one-electron Hartree-Fock approximation and take into account many-electron correlations within the framework of the random-phase approximation with exchange or many-body perturbation theory. Ideal for scholars interested in numerical computation of atomic and molecular processes, the material presented in this book is useful to both experts and novices, theorists, and experimentalists.

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