To purchase hard copies of this book, please email:
orders@intechopen.com
Share this page
This book is indexed in
Physics
Theoretical Concepts of Quantum Mechanics
Edited by Mohammad Reza Pahlavani, ISBN 978-953-51-0088-1, Hard cover, 598 pages, Publisher: InTech, Chapters published February 24, 2012 under CC BY 3.0 license
DOI: 10.5772/2075 
Quantum theory as a scientific revolution profoundly influenced human thought about the universe and governed forces of nature. Perhaps the historical development of quantum mechanics mimics the history of human scientific struggles from their beginning. This book, which brought together an international community of invited authors, represents a rich account of foundation, scientific history of quantum mechanics, relativistic quantum mechanics and field theory, and different methods to solve the Schrodinger equation. We wish for this collected volume to become an important reference for students and researchers.
- Chapter 1
Complementarity in Quantum Mechanics and Classical Statistical Mechanics - Chapter 2 The Physical Nature of Wave/Particle Duality
- Chapter 3 The Bicomplex Heisenberg Uncertainty Principle
- Chapter 4 Correspondence, Time, Energy, Uncertainty, Tunnelling, and Collapse of Probability Densities
- Chapter 5 Anisotropic Kepler Problem and Critical Level Statistics
- Chapter 6 Theory of Elementary Particles Based on Newtonian Mechanics
- Chapter 7 Better Unification for Physics in General Through Quantum Mechanics in Particular
- Chapter 8 Nonrelativistic Quantum Mechanics with Fundamental Environment
- Chapter 9 Non Commutative Quantum Mechanics in Time - Dependent Backgrounds
- Chapter 10 Quantum Mechanics and Statistical Description of Results of Measurement
- Chapter 11 Application of the Nikiforov-Uvarov Method in Quantum Mechanics
- Chapter 12 Solutions for Time-Dependent Schrödinger Equations with Applications to Quantum Dots
- Chapter 13 The Group Theory and Non-Euclidean Superposition Principle in Quantum Mechanics
- Chapter 14 The Pancharatnam-Berry Phase: Theoretical and Experimental Aspects
- Chapter 15 Bohmian Trajectories and the Path Integral Paradigm – Complexified Lagrangian Mechanics
- Chapter 16 A Fully Quantum Model of Big Bang
- Chapter 17 Spontaneous Supersymmetry Breaking, Localization and Nicolai Mapping in Matrix Models
- Chapter 18 Correspondences of Scale Relativity Theory with Quantum Mechanics
- Chapter 19 Approximate Solutions of the Dirac Equation for the Rosen-Morse Potential in the Presence of the Spin-Orbit and Pseudo-Orbit Centrifugal Terms
- Chapter 20 Quantum Mechanics Entropy and a Quantum Version of the H-Theorem
- Chapter 21 Correction, Alignment, Restoration and Re-Composition of Quantum Mechanical Fields of Particles by Path Integrals and Their Applications
- Chapter 22 The ‘Computational Unified Field Theory’ (CUFT): Harmonizing Quantum and Relativistic Models and Beyond
- Chapter 23 Theoretical Validation of the Computational Unified Field Theory (CUFT)