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  • af Michel (Universite de Nice Le Bellac
    793,95 kr.

    In this textbook for a modern course on quantum physics for advanced undergraduate and graduate students, Le Bellac uses an original approach which relies primarily on an algebraic treatment and symmetry principles. In addition to standard topics the reader is introduced to more recent developments at an early stage.

  • af Michel (Universite de Nice Le Bellac
    999,95 kr.

    This book, first published in 2006, provides an introduction to the subject of quantum information and computation. Aimed at physical science undergraduates, it journeys from quantum mechanics, through to quantum computation, before finishing with the implementation of quantum computers. The book supplies many short exercises to aid self study. Answers for instructors are available.

  • af Michel (Universite de Nice Le Bellac
    855,95 kr.

    This text introduces the theoretical framework for describing the quark-gluon plasma, an important new state of matter. The first part is a self-contained introduction to the principles of relativistic thermal field theory. The second part details recent developments. Each chapter contains exercises and a guide to the literature.

  • af Michel Le Bellac, Fabrice Mortessagne & G. George Batrouni
    771,95 - 1.343,95 kr.

    This graduate-level text gives a self-contained exposition of fundamental topics in equilibrium and nonequilibrium statistical thermodynamics. The text follows a balanced approach between the macroscopic (thermodynamic) and microscopic (statistical) points of view. The first half of the book deals with equilibrium thermodynamics and statistical mechanics. In addition to standard subjects, the reader will find a detailed account of broken symmetries, critical phenomena and the renormalization group, as well as an introduction to numerical methods. The second half of the book is devoted to nonequilibrium phenomena, first following a macroscopic approach, with hydrodynamics as an important example. Kinetic theory receives a thorough treatment through analysis of the Boltzmann-Lorentz model and the Boltzmann equation. The book concludes with general nonequilibrium methods such as linear response, projection method and the Langevin and Fokker-Planck equations, including numerical simulations. This advanced textbook will be of interest to graduate students and researchers in physics.