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Last update: T_KEVF (15.05.2014)
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Last update: SOLDAN/MFF.CUNI.CZ (01.10.2009)
The lecture is continuous with OFY027 and it represents the standard course of quantum theory (QT) giving its necessary knowledge for the students having an interest first and foremost in the experimental physics. It is the reduced alternative to the two-semestral course OFY045, OFY046. The formal structure of QT. Some simple applications. The theory of representations. Angular momentum. Spin. The motion in the central field. The approximate methods in QT. The motion in the electric and magnetic fields. Many particle systems. The adiabatic approximation. Bosons and fermions. The one-particle approximation. The second quantization. The interaction of the system with the electromagnetic field. |
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Last update: doc. Ing. Pavel Soldán, Dr. (12.11.2018)
Zamastil J. and Benda J., Quantum Mechanics and Electrodynamics. Springer 2017
Klíma J.a Velický B., Kvantová mechanika I. Karolinum Praha 2015
Klíma J.a Velický B., Kvantová mechanika II. Karolinum Praha 2018
Klíma J. a Šimurda M., Sbírka problémů z kvantové teorie. Academia, Praha 2006
Pišút J., Gomolčák L. a Černý V., Úvod do kvantovej mechaniky. ALFA, Bratislava-SNTL Praha 1983
Pišút J., Černý V. a Prešnajder P., Zbierka úloh z kvantovej mechaniky. ALFA, Bratislava-SNTL Praha 1985
Fišer J., Úvod do kvantové chemie. Academia, Praha 1983
Zamastil J. a Benda J., Kvantová mechanika a elektrodynamika. Karolinum Praha 2016
Blochincev D.I.: Základy kvantové mechaniky. NČSAV, Praha 1956
Davydov A.S.: Kvantová mechanika. SPN, Praha 1978
Po konsultaci s přednášejícím lze ke studiu používat i řadu dalších učebnic a sbírek příkladů, zejména cizojazyčných. |
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Last update: doc. Ing. Pavel Soldán, Dr. (29.09.2016)
lectures and tutorials |
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Last update: SOLDAN/MFF.CUNI.CZ (01.10.2009)
The lecture is continuous with OFY027 and it represents the standard course of quantum theory (QT) giving its necessary knowledge for the students having an interest first and foremost in the experimental physics. It is the reduced alternative to the two-semestral course OFY045, OFY046.
The formal structure of QT. Some simple applications. The theory of representations. Angular momentum. Spin. The motion in the central field. The approximate methods in QT. The motion in the electric and magnetic fields. Many particle systems. The adiabatic approximation. Bosons and fermions. The one-particle approximation.
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