Physics P511/P512
Quantum Mechanics I-II - Fall 2002/Spring 2003

Course WWW home page: http://physics.indiana.edu/~berger/p511.html

TR 10:10-12:05PM (Section 3518)
Swain West 217
Instructor: Mike Berger

Phone: (812) 855-2609
Email: berger@gluon.physics.indiana.edu
WWW: http://physics.indiana.edu/~berger/aboutme.html
Office Hours: Wednesday, 1:30-3:30pm, or by appt.
Quantum Mechanics (P511-P512)


o Text

Modern Quantum Mechanics (Rev. Ed.)

by J. J. Sakurai

o Outline


States of a quantum mechanical system
Kets, bras, and operators
Position and Momentum
Wave Functions

Quantum Dynamics

Time evolution and the Schrodinger equation
Schrodinger and Heisenberg Pictures
Simple Harmonic Oscillator
Path Integrals

Angular Momentum

Rotation group, Euler angles, SO(3), SU(2)
Spin-1/2 systems
Commutation Relations
Eigenstates of angular momentum
Addition of angular momentum
Clebsch-Gordon coefficients
Wigner-Eckart theorem


Conservation laws
Time reversal

Perturbation Theory

Time-independent perturbation theory
Variational methods
Time-dependent perturbation theory

Quantum Indistinguisability

Permutation symmetry
Young tableaux

Scattering Theory

Lippmann-Schwinger equation
Born approximation
Optical theorem
Partial waves

o Other Useful Reference Material

Roger Newton, Quantum Physics: A Text for Graduate Students (Springer Verlag)

P.A.M. Dirac, The Principles of Quantum Mechanics (Oxford)

L.D. Landau and E.M. Lifshitz, Quantum Mechanics (Pergamon)

L.I. Schiff, Quantum Mechanics (McGraw-Hill)

G. Baym, Lectures on Quantum Mechanics (Benjamin)

H.A. Bethe and E.E. Salpeter, Quantum Mechanics of One- and Two-Electron Atoms (Springer)

H.J. Lipkin, Quantum Mechanics (North Holland)

J.D. Jackson, Mathematics for Quantum Mechanics (Benjamin)

L. Pauling and E.B. Wilson, Introduction to Quantum Mechanics (McGraw-Hill)

S. Glasstone, Theoretical Chemistry (Van Nostrand)

E. Merzbacher, Quantum Mechanics (Wiley)

S. Gasiorowicz, Quantum Physics (Wiley)

A. Messiah, Quantum Mechanics (2 volumes) (Wiley)

o Problem Sets

Note to Windows users: Postscript files can be viewed with GSview. Please see http://xxx.lanl.gov/help/pswindows.html for details.

Problem Sets will typically be due on Thursdays.

Problem Set 1

Problem Set 2

Problem Set 3

Problem Set 4

Problem Set 5

Problem Set 6

Problem Set 7

Problem Set 8

Problem Set 9

Problem Set 10

Problem Set 11

Problem Set 12

Problem Set 13

Problem Set 14

Problem Set 15

Problem Set 16

Problem Set 17

Problem Set 18

Problem Set 19

Problem Set 20

o Grades

Check your grades

o Grader

Kun Chen

o Websites for Time Evolution of Harmonic Oscillator States




o Website for Stark Effect for n=2 and 3


o Notes on Quantum Computation