PHYS 623
Introduction to Quantum Mechanics II
Spring 2018, University of Maryland
Prof. Ted Jacobson
SUPPLEMENTS
Notes
Robert
Littlejohn's Lecture Notes- Fall 2017 -Spring 2018
Hitoshi
Murayama's Lecture Notes
Millard Alexander's
Lecture Notes:
Molecular Electronic Structure, Electronic structure considerations for
C2 and O2, Web page for Chem
691, with links to more notes
John
Preskill's notes on quantum computation
Preskill's Ch. 2: States and Ensembles
Antony Speranza's notes
on quantum error correction
Notes by T. Jacobson
Entanglement
and mixed states
Partial
wave expansion
s-wave scattering
phase shift and cross section
Nuclear
multipole moments and symmetries
Perturbation theory for
stationary states
Addition of angular
momenta
Irreducible tensor operators and the
Wigner-Eckart theorem
Why a filled shell has zero
angular momentum
Spin
resonance
Born
approximation validity conditions
Born
approximation features
Quantum nonlocality and the
GHZ state
Quantum
teleportation
Articles
Collisional Dark Matter:
Particle Physics Dynamics for Dark Matter Halo Structure
presentation:
An
Atom Interferometric Sensor at Fermilab: Searching for
Ultralight Dark Matter Particles and Probing the Very
Early Universe via Primordial Gravitational Waves
Viewpoint in Physics, March 5,
2018 : "A Boost in Precision for Optical Atomic Clocks," Mukund
Vengalattore
Pauli, Nobel Lecture
Zeeman,
Nobel Lecture
Lorentz,
Nobel lecture
Hinkley et.
al, Science, 341 (2013) 1215, "An Atomic clock with
10^-18 instability"
Ma et. al,
Nature, 489, 269 (2012), "Quantum teleportation over 143
kilometres using active feed-forward"
Barskiy
et. al, Chem. Eur. J. 2017, 23, 725, "NMR
Hyperpolarization Techniques of Gases"
Rabi et. al, Phys. Rev.
Letters 53, (1938) 318, "A New Method of Measuring Nuclear
Magnetic Moment"
Rabi et. al, Phys. Rev.
55, (1939) 526, "The Molecular Beam Resonance Method for
Measuring Nuclear Magnetic Moments. The Magnetic Moments of 3Li6,
3Li7, and 9F19"
Kohn Nobel Lecture, Rev.
Mod. Phys. 71 (1999) 1253-1266, "Electronic structure of
matter—wave functions and density functionals"
Lamb and Retherford, Phys. Rev. 72
(1947) 241-243, "Fine Structure of the Hydrogen Atom by a
Microwave Method"
Lamb and Retherford, Phys. Rev. 79
(1950) 549-572, "Fine Structure of the Hydrogen Atom. Part I"
Lucretius:
"On the Nature of the Universe"
(55 BC)
The
Quantum Theory of the Electron, P.A.M.
Dirac, 1928 (open the pdf from Proc. Roy.
Soc. A website)
Zeeman, Nature
v. 55, 347 (1897)