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== Lecture 1: Second quantization formalism for harmonic oscillator ==
== Lecture 1: Second quantization formalism for harmonic oscillator ==
* Example: Coherent (quasiclassical) and squeezed states.
* Example: Isotropic three-dimensional harmonic oscillator.
* Example: Isotropic three-dimensional harmonic oscillator.
* Example: Coherent (quasiclassical) and squeezed states.
* Example: Phonons in solids.
* Example: Phonons in solids.


Revision as of 13:02, 9 August 2019

Lecture 1: Second quantization formalism for harmonic oscillator

  • Example: Coherent (quasiclassical) and squeezed states.
  • Example: Isotropic three-dimensional harmonic oscillator.
  • Example: Phonons in solids.

Lecture 2: Second quantization formalism for bosons

  • Example: Magnons in magnetic materials.
  • Example: Bogoliubov theory of superfluids.

References

  • Chapters 3, 4.5 and 6 of Nazarov and Danon textbook.

Lecture 3: Second quantization formalism for fermions

  • Example: Hubbard clusters.
  • Example: Hartree-Fock theory of electrons in metals.
  • Example: BCS theory of superconductivity.

References

  • Chapters 3 and 5 of Nazarov and Danon textbook.

Lecture 4: Time-dependent perturbation theory

  • Example: Dyson vs. Magnus expansion for driven harmonic oscillator.

References

  • Chapter 1 of Nazarov and Danon textbook.
  • S. Blanes, F. Casas, J. A. Oteo, and J. Ros, A pedagogical approach to the Magnus expansion, Eur. J. Phys. 31, 907 (2010). [PDF]

Lecture 5: Floquet theory of periodically driven quantum systems

  • Example: Periodically driven harmonic oscillator.
  • Example: Floquet topological insulators.

Lecture 6: Berry phase and wavefunctions for time-dependent quantum systems

Lecture 7: Quantization of the electromagnetic field

  • Example: Casimir effect.
  • Example: Nonclassical light and photon statistics.
  • Example: Light-matter interaction.

Lecture 8: Dissipative quantum mechanics with application to qubits

  • Example: Damped harmonic oscillator.
  • Example: Qubit coupled to dissipative environment.

References

  • Chapters 11 and 12 of Nazarov and Danon textbook.

Lecture 9: Scattering theory

Lecture 10: Relativistic quantum mechanics

References

  • Chapter 13 of Nazarov and Danon textbook.
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