Quantum Mechanics I

Class at Faculty of Mathematics and Physics |

NJSF094

The space of states of a quantum system.

Representation of physical observables.

Compatible and incompatible observables.

Representation of physical transformations.

Evolution of a quantum system.

Quantum measurement.

Quantum statistical physics.

* Literature:

P. Cejnar: A Condensed Course of Quantum Mechanics (Karolinum Press, Praha, 2013)

J.J. Sakurai: Modern Quantum Mechanics (Addison-Wesley, Reading, 1985, 1994)

J.J. Sakurai, J.J. Napolitano, Modern Quantum Mechanics (Addison-Wesley, San Francisco, 2011)

G.Auletta, M. Fortunato, G.Parisi, Quantum Mechanics (Cambridge University Press, 2009)

L.E. Ballantine: Quantum Mechanics. A Modern Development (World Scientific, Singapore, 1998)

J. Formánek: Úvod do kvantové teorie (Academia, Praha, 1983, 2004)

Basic formalism of non-relativistic quantum theory and its application in simple quantum systems.

Extending lecture: JSF095.