Good work with the final! All solutions available, and the distributions for the midterm and the final posted.

Quick links

Homeworks

Lectures: Mon Wed Fri 9:00-10:00 160 DWINELLE

Discussion section: Wed 4-5 3113 ETCHEVERR, F 2-3 9 LEWIS

Homeworks: weekly, due Mondays, 4pm

Exams: one Midterm, one Final

Instructor: Hitoshi Murayama

E-mail: [email protected]

Phone: 2-1019 (no voice machine), 486-5589 (LBNL, with voice machine)

Office: 447 Birge, 50A-5109 (LBNL)

Office Hours: Fri 11-1

TA: Matthijs Randsdorp

E-mail: [email protected]

Phone: 2-5647

Office: 277 LeConte

Office Hours: TBA

TA: Jarah Evslin

E-mail: [email protected]

Phone:

Office: 475 Birge

Office Hours: TBA

Prerequisites

137AB or equivalent

Course Outline

Fundamental Concepts
Quantum Dynamics
Symmetry in Quantum Mechanics
Approximation Methods

Useful books

Lecture Notes

Neutrino Oscillation (slides)
WKB method in PDF or PostScript.
Coherent state in PDF or PostScript.
Path Integrals in PDF or PostScript
Electromagnetic Couplings in PDF or PostScript.
Spherical Harmonics in PDF or PostScript. Also a Mathematica notebook that shows the "shapes" of spherical harmonics.
Landau Levels in PDF or PostScript. Now expanded with discussions on Hall current and conserved quanitities.
Notes on Spin in PDF or PostScript. Not a part of the course; only for the curious.
Lecture notes by Prof. Robert Littlejohn on bound-state perturbation theory in PDF and PostScript, on Stark Effect in PDF and PostScript, and on fine structure in PDF and PostScript.
Notes on two-state problem PDF or PostScript.

Relevant Articles

The Super-Kamiokande Collaboration, "Evidence for Oscillation of Atmospheric Neutrinos," Phys. Rev. Lett. 81, 1562-1567 (1998), hep-ex/9807003
R. P. Feynman, "Space-Time Approach to Non-Relativistic Quantum Mechanics," Rev. Mod. Phys. 20, 367 (1948)
Y. Aharonov and D. Bohm, "Significance of Electromagnetic Potentials in the Quantum Theory," Phys. Rev. 115, 485 (1959)
W.-T. Lee, O. Motrunich, B. E. Allman, and S. A. Werner, "Observation of Scalar Aharonov-Bohm Effect with Longitudinally Polarized Neutrons," Phys. Rev. Lett. 80, 3165-3168 (1998)
R. Colella and A. W. Overhauser, S. A. Werner, "Observation of Gravitationally Induced Quantum Interference,"Phys. Rev. Lett. 34, 1472 (1975)
S. A. Werner and J. -L. Staudenmann, R. Colella, "Effect of Earth's Rotation on the Quantum Mechanical Phase of the Neutron," Phys. Rev. Lett. 42, 1103 (1979)
A review talk on neutron interferometry. It has an emphasis on the Aharonov-Casher effect, which has a line charge and a maagnetic moment going around it. This is the opposite from the Aharonov-Bohm effect, where the magnetic field (one can view this as a "line magnetic moment") is at rest and the charge moves around it. Hopefully this example addresses some of your skepticisms about the Aharonov-Bohm effect. The review has nice pictures.
A. Tonomura, N. Osakabe, T. Matsuda, T. Kawasaki, J. Endo, S. Yano and H. Yamada, "Evidence for Aharonov-Bohm effect with magnetic field completely shielded from electron wave," Phys. Rev. Lett. 56, 792 (1986)
S. A. Werner, R. Colella, A. W. Overhauser, C. F. Eagen, "Observation of the Phase Shift of a Neutron Due to Precession in a Magnetic Field," Phys. Rev. Lett. 35, 1053 (1975). Also, Rauch et al, Phys. Lett. 54A, 425 (1975).
J.S. Bell, Physics 1, 195 (1964). Experimentally more accessible case was discussed in John F. Clauser, Michael A. Horne, Abner Shimony, and Richard A. Holt, Phys. Rev. Lett. 23, 880 (1969).
Stuart J. Freedman and John F. Clauser, "Experimental Test of Local Hidden-Variable Theories," Phys. Rev. Lett. 28, 938 (1972). The inequality used in this work was explained in detail in John F. Clauser and Michael A. Horne, "Experimental consequences of objective local theories," Phys. Rev. D 10, 526 (1974). See also more recent experiments: Alain Aspect, Philippe Grangier, and Gérard Roger, "Experimental Tests of Realistic Local Theories via Bell's Theorem," Phys. Rev. Lett. 47, 460 (1981). Alain Aspect, Jean Dalibard, and Gérard Roger, "Experimental Test of Bell's Inequalities Using Time-Varying Analyzers," Phys. Rev. Lett. 49, 1804 (1982). There still appear to be some proponents for hidden variable theory around. I happened to find one quant-ph/0007102.
For a recent study of atmoic parity violation, see S. C. Bennett and C. E. Wieman, Phys. Rev. Lett. 82, 2484-2487 (1999). This works shows 2.5 sigma deviation from the Standard Model.
CPLEAR Collaboration (A. Angelopoulos et al.), "First Direct Observation of Time Reversal Noninvariance in the Neutral Kaon System," Phys. Lett. B444, 43-51 (1998).
The Basics of MRI (Medical Resonance Imaging) by Joseph P. Hornak.

Homeworks

HW #1 in PDF or PostScript
HW #2 in PDF or PostScript and solutions and notebook (its PDF)
HW #3 in PDF or PostScript and solutions
HW #4 in PDF or PostScript and solutions in PDF or PostScript
HW #5 in PDF or PostScript and solutions in PDF or PostScript
Midterm in PDF or PostScript. Solutions in PDF or PostScript. Also a notebook file for the WKB problem.
HW #6 in PDF or PostScript and solutions in PDF or PostScript
HW #7 in PDF or PostScript and solutions in PDF or PostScript.
HW #8 in PDF or PostScript and solutions

HW #9 in PDF or PostScript
Final problem set (full installation) in PDF or PostScript. Solutions in PDF and PostScript. Also a notebook file or its PDF on problem 2.

Miscellaneous Notes

Notes on Delta Function in PDF or PostScript
Notes on Classical Mechanics I in PDF or PostScript
Notes on Classical Mechanics II in PDF or PostScript, expanded with an appendix for doing some of the integrals
Notes on Gaussian Integrals in PDF or PostScript
Notes on Steepest Descent Method in PDF or PostScript
Notes on Interaction of Magnetic Moments in PDF or PostScript

Useful Links

Online calculators of Clebsch-Gordan coefficients without Java, with a Java applet, and also another Java applet. Use them at your own risk.
Table of Clebsch-Gordan coefficients from Particle Data Group, look for "Clebsch-Gordan" on this page. Note also that Mathematica has function "ClebschGordan".