Beschreibung:
Jean-Louis Basdevant is Professor and Chair of the Department of Physics at the Ecole Polytechnique, and Director of Research for the CNRS.
This course on quantum mechanics offers a fresh and modern approach to the field. It is a textbook on the principles of the theory, its mathematical framework and its first applications. It consistently refers to modern and practical developments, such as tunneling microscopy, quantum information, Bell inequalities, quantum cryptography, Bose-Einstein condensation and quantum astrophysics. The book contains 92 exercises with their solutions.
Supplementary material on extras.springer.com contains outstanding and "easy access" Java-based simulations, which illustratively help the user to better understand how the theory actually operates. It also contains a variety of links where one can discover updated applications and further readings. A complementary book The Quantum Mechanics Solver guides students to applying the theory developed here to research problems in atomic and molecular physics, condensed matter and laser physics.
This course on quantum mechanics offers a fresh and modern approach to the field. As a textbook on the principles of the theory, its mathematical framework and its first applications, it consistently refers to modern and practical developments, such as tunneling microscopy, quantum information, Bell inequalities, quantum cryptography, Bose-Einstein condensation and quantum astrophysics. The book contains 92 exercises with their solutions.
This course on quantum mechanics offers a fresh and modern approach to the field. As a textbook on the principles of the theory, its mathematical framework and its first applications, it consistently refers to modern and practical developments, such as tunneling microscopy, quantum information, Bell inequalities, quantum cryptography, Bose-Einstein condensation and quantum astrophysics. The book contains 92 exercises with their solutions.
Quantum Phenomena.- The Wave Function and the Schrödinger Equation.- Physical Quantities and Measurements.- Quantization of Energy in Simple Systems.- Principles of Quantum Mechanics.- Two-State Systems, Principle of the Maser.- Commutation of Observables.- The Stern-Gerlach Experiment.- Approximation Methods.- Angular Momentum.- Initial Description of Atoms.- Spin 1/2 and Magnetic Resonance.- Addition of Angular Momenta, Fine and Hyperfine Structure of Atomic Spectra.- Entangled States, EPR Paradox and Bell's Inequality.- The Lagrangian and Hamiltonian Formalisms, Lorentz Force in Quantum Mechanics.- Identical Particles and the Pauli Principle.- The Evolution of Systems.- Scattering Processes.- Qualitative Physics on a Macroscopic Scale.- Early History of Quantum Mechanics.