Lectures On Quantum Mechanics

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A01=Gordon Baym
advanced quantum states
angular
Angular Momentum
Angular Momentum Eigenstates
Angular Momentum Operator
Author_Gordon Baym
Category=PH
Clebsch Gordan Coefficients
commutation
Commutation Relation
Differential Cross Sections
element
eq_bestseller
eq_isMigrated=1
eq_isMigrated=2
eq_nobargain
eq_non-fiction
eq_science
function
graduate quantum mechanics
Heisenberg Representation
Isotopic Spin
matrix
momenta
Nonvanishing Matrix Elements
operator formalism
orbital
Orbital Angular Momenta
packet
particle scattering theory
Probability Amplitude
quantum mechanics for researchers
quantum theory foundations
relation
Relative Angular Momentum
Relative Orbital Angular Momentum
relativistic quantum equations
Spatial Wave Function
Spin
Spin Angular Momentum
Spin Orbit Interaction
Total Angular Momentum
Total Angular Momentum Quantum Number
Trial Wave Function
Triplet State
Vice Versa
wave
Wave Function
Wave Packet
Wigner Eckart Theorem

Product details

  • ISBN 9780367091873
  • Weight: 720g
  • Dimensions: 138 x 216mm
  • Publication Date: 13 Jun 2019
  • Publisher: Taylor & Francis Ltd
  • Publication City/Country: GB
  • Product Form: Hardback
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These lecture notes comprise a three-semester graduate course in quantum mechanics at the University of Illinois. There are a number of texts which present the basic topics very well; but since a fair quantity of the material discussed in my course was not available to the students in elementary quantum mechanics books, I was asked to prepare written notes. In retrospect these lecture notes seemed sufficiently interesting to warrant their publication in this format. The notes, presented here in slightly revised form, consitutute a self-contained course in quantum mechanics from first principles to elementary and relativistic one-particle mechanics. Prerequisite to reading these notes is some familiarity with elementary quantum mechanics, at least at the undergraduate level. Preferably the reader should already have met the uncertainty principle and the concept of a wave function. Prerequisites also include sufficient acquaintance with complex cariables to be able to do simple contour integrals and to understand words such as "poles" and "branch cuts." An elementary knowledge of Fourier transforms and series is necessary. I also assume an awareness of classical electrodynamics.
Gordon Baym

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