Overview

Amongst the numerous texts on the subject, the authors have succeeded in creating a novel approach to the understanding of quantum physics based on four novel features: - deliberate use of qualitative methods and heuristic arguments rather than formal calculations; - permanent reference to contemporary experimental results in many modern fields of physics (nuclear and high energy, neutronics, solid state, lasers, etc.); - careful discussion of conceptual difficulties and terminological problems from the present standpoint; - presentation of modern theoretical viewpoints (such as symmetry principles). An impressive selection of original problems supplement this up-to-date and comprehensive introduction to quantum physics. Quantics - Rudiments will be appreciated by a wide audience, from educated layman to professional scientist.

Full Product Details

Author:   J.-M. Levy-Leblond ,  F. Balibar ,  J.-M. Levy-Leblond
Publisher:   Elsevier Science & Technology
Imprint:   North-Holland
Dimensions:   Width: 15.90cm , Height: 2.50cm , Length: 23.50cm
Weight:   0.885kg
ISBN:  

9780444881205

ISBN 10:   0444881204
Pages:   540
Publication Date:   11 September 1990
Audience:   College/higher education ,  Professional and scholarly ,  Undergraduate ,  Postgraduate, Research & Scholarly
Format:   Paperback
Publisher's Status:   Out of Print
Availability:   Awaiting stock  

Table of Contents

Preface. 1. The Quantum Regime. Quantics today. The quantum constant. Limits of validity of classical physics and the need for a quantum physics. Quantum order of magnitude. Some open problems. Exercises. 2. Quantons. The concepts of classical physics. The new entities. The new concepts. Exercises. 3. Quantum Magnitudes and the Heisenberg Inequalities. Spectral extensions and classical wave pockets. The Heisenberg inequalities: eigen states and eigen values. Applications. Exercises. 4. Probabilities and Quantum Amplitudes. The polarization of light. Transition probabilities and physical magnitudes. Probability amplitudes. Rules for calculating quantum amplitudes. The diffraction of neutrons. Exercises. 5. Quantons in Space and Time. The time dependence of quantum amplitudes. Localization amplitudes and wave functions. Amplitudes and effective scattering cross-sections, quantons ``in motion'', Exercises. 6. Steps, Wells, Barriers and Battlements (flat potentials). Flat potential. The infinite flat well. A potential step. The finite flat well. The ``tunnel'' effect. The double well. The battlement-like potential. Theory of band-structure. Exercises. 7. Collective Behaviour: Identical Quantons. Composite systems. Systems of two identical quantons. Systems of N identical quantons. Fermions. Bosons. The number-phase inequality and the classical limit. A new duality? Exercises. Subject index.

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