Continues PHYS 481 and begins with an extensive discussion of time dependence in quantum mechanics. Exactly solvable problems such as spin-magnetic resonance are used to illustrate the time-dependent perturbation series. Applications include emission and absorption of radiation, multipole selection rules, and electron scattering from atoms and nuclei. Further topics discussed in detail are symmetry in quantum mechanics, rotation matrices and applications, many particle systems, collision theory, and variational methods including Hartree-Fock theory. Weekly hours: 3 Lecture hoursPrerequisite(s): PHYS 481. Note(s): Students may receive credit for only one of PHYS 886 or PHYS 482.
Continues PHYS 481 and begins with an extensive discussion of time dependence in quantum mechanics. Exactly solvable problems such as spin-magnetic resonance are used to illustrate the time-dependent perturbation series. Applications include emission and absorption of radiation, multipole selection rules, and electron scattering from atoms and nuclei. Further topics discussed in detail are symmetry in quantum mechanics, rotation matrices and applications, many particle systems, collision theory, and variational methods including Hartree-Fock theory. Weekly hours: 3 Lecture hoursPrerequisite(s): PHYS 481. Note(s): Students may receive credit for only one of PHYS 886 or PHYS 482.
