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Title : 8.322 Quantum Theory II (MIT)

Title : 8.322 Quantum Theory II (MIT)

Description : 8.322 is the second semester of a two-semester subject on quantum theory, stressing principles. Topics covered include: time-dependent perturbation theory and applications to radiation, quantization of EM radiation field, adiabatic theorem and Berry's phase, symmetries in QM, many-particle systems, scattering theory, relativistic quantum mechanics, and Dirac equation.

Description : 8.322 is the second semester of a two-semester subject on quantum theory, stressing principles. Topics covered include: time-dependent perturbation theory and applications to radiation, quantization of EM radiation field, adiabatic theorem and Berry's phase, symmetries in QM, many-particle systems, scattering theory, relativistic quantum mechanics, and Dirac equation.

Fromsemester : Spring

Fromsemester : Spring

Fromyear : 2003

Fromyear : 2003

Creator :

Creator :

Date : 2004-08-20T10:52:44+05:00

Date : 2004-08-20T10:52:44+05:00

Relation : 8.322

Relation : 8.322

Language : en-US

Language : en-US

Subject : uncertainty relation

Subject : uncertainty relation

Subject : observables

Subject : observables

Subject : eigenstates

Subject : eigenstates

Subject : eigenvalues

Subject : eigenvalues

Subject : probabilities of the results of measurement

Subject : probabilities of the results of measurement

Subject : transformation theory

Subject : transformation theory

Subject : equations of motion

Subject : equations of motion

Subject : constants of motion

Subject : constants of motion

Subject : Symmetry in quantum mechanics

Subject : Symmetry in quantum mechanics

Subject : representations of symmetry groups

Subject : representations of symmetry groups

Subject : Variational and perturbation approximations

Subject : Variational and perturbation approximations

Subject : Systems of identical particles and applications

Subject : Systems of identical particles and applications

Subject : Time-dependent perturbation theory

Subject : Time-dependent perturbation theory

Subject : Scattering theory: phase shifts

Subject : Scattering theory: phase shifts

Subject : Born approximation

Subject : Born approximation

Subject : The quantum theory of radiation

Subject : The quantum theory of radiation

Subject : Second quantization and many-body theory

Subject : Second quantization and many-body theory

Subject : Relativistic quantum mechanics of one electron

Subject : Relativistic quantum mechanics of one electron

Subject : probability

Subject : probability

Subject : measurement

Subject : measurement

Subject : motion equations

Subject : motion equations

Subject : motion constants

Subject : motion constants

Subject : symmetry groups

Subject : symmetry groups

Subject : quantum mechanics

Subject : quantum mechanics

Subject : variational approximations

Subject : variational approximations

Subject : perturbation approximations

Subject : perturbation approximations

Subject : identical particles

Subject : identical particles

Subject : time-dependent perturbation theory

Subject : time-dependent perturbation theory

Subject : scattering theory

Subject : scattering theory

Subject : phase shifts

Subject : phase shifts

Subject : quantum theory of radiation

Subject : quantum theory of radiation

Subject : second quantization

Subject : second quantization

Subject : many-body theory

Subject : many-body theory

Subject : relativistic quantum mechanics

Subject : relativistic quantum mechanics

Subject : one electron

Subject : one electron

Subject : quantization

Subject : quantization

Subject : EM radiation field

Subject : EM radiation field

Subject : electromagnetic radiation field

Subject : electromagnetic radiation field

Subject : adiabatic theorem

Subject : adiabatic theorem

Subject : Berry?s phase

Subject : Berry?s phase

Subject : many-particle systems

Subject : many-particle systems

Subject : Dirac equation

Subject : Dirac equation

Subject : Hilbert spaces

Subject : Hilbert spaces

Subject : time evolution

Subject : time evolution

Subject : Schrodinger picture

Subject : Schrodinger picture

Subject : Heisenberg picture

Subject : Heisenberg picture

Subject : interaction picture

Subject : interaction picture

Subject : classical mechanics

Subject : classical mechanics

Subject : path integrals

Subject : path integrals

Subject : EM fields

Subject : EM fields

Subject : electromagnetic fields

Subject : electromagnetic fields

Subject : angular momentum

Subject : angular momentum

Subject : density operators

Subject : density operators

Subject : quantum measurement

Subject : quantum measurement

Subject : quantum statistics

Subject : quantum statistics

Subject : quantum dynamics

Subject : quantum dynamics