281015 Quantenmechanik I (V) (WiSe 2001/2002)
Contents, comment
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Inhalt
· Experimentelle Hinweise auf die Notwendigkeit und die Strukturen der Quantenmechanik(Polarisation von Photonen, Interferenz von Elektronen)
· Allgemeiner Formalismus (Zustände, Observable, Meßprozeß, Transformationstheorie, Bilder der Zeitentwicklung)
· Quantenmechanische Eigenarten am Beispiel der eindimensionalen Wellenmechanik
· Symmetrien und Erhaltungsgrößen, der Drehimpuls
· Dreidimensionale Probleme (Wasserstoffatom, dreidimensionaler harmonischer Oszillator)
· Streutheorie (Potentialstreuung, Partialwellenformalismus, Resonanzstreuung)
· Spin (Teilchen im elektromagnetischen Feld, Pauligleichung)
· Identische Teilchen (Pauli-Prinzip, Fock-Raum)
· Störungstheorie (zeitunabhängig und zeitabhängig)
Requirements for participation, required level
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Vordiplom, insbesondere Theoretische Mechanik und
Mathematische Methoden der Physik
Bibliography
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Die Vorlesung folgt keinem publizierten Lehrbuch. Aus der riesigen Auswahl an vorhandenen Büchern sei hingewiesen auf folgende:
· J.J. Sakurai, Modern Quantum Mechanics, Addison & Wesley, New York.
· K. Gottfried, Quantum Mechanics, Vol. I, Benjamin, Reading.
· L.I. Schiff, Quantum Mechanics, Mc Graw Hill, Düsseldorf.
· L.D. Landau, E.M. Lifschitz, Lehrbuch der theoretischen Physik Bd. III (Quantenmechanik) Akademie Verlag, Berlin.
· A. Messiah, Quantenmechanik Bd. 1 und 2, Walter de Gruyter, Berlin.
· E. Merzbacher, Quantum Mechanics, John Wiley, New York.
· S. Gasiorowicz, Quantenmechanik, Oldenburg, München.
· G. Grawert, Quantenmechanik I und II, Akadem. Verlagsgesellschaft Frankfurt.
· F. Schwabl, Quantenmechanik, Springer, Berlin.
Teaching staff
Dates ( Calendar view )
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Subject assignments
| Degree programme/academic programme | Validity | Variant | Subdivision | Status | Semester | LP | |
|---|---|---|---|---|---|---|---|
| Physik / Diplom | (Enrollment until SoSe 2008) | Pflicht | 5. | HS |
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