Template:Course Topics: Difference between revisions
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*Second quantization for bosons and fermions. | *Second quantization formalism for bosons and fermions. | ||
*Applications of second quantization: Hartree-Fock method, | *Applications of second quantization: Hartree-Fock method, magnons, superconductivity and superfluidity. | ||
*Time-dependent perturbation theory: Dyson | *Time-dependent perturbation theory: Dyson vs. Magnus expansions. | ||
*Floquet theory of periodically driven time-dependent quantum systems. | *Floquet theory of periodically driven time-dependent quantum systems. | ||
*Quantization of the electromagnetic field. | *Quantization of the electromagnetic field. | ||
*Nonclassical light. | *Nonclassical light. | ||
* | *Light-matter interaction. | ||
*Dissipative quantum mechanics with application to qubits. | |||
*Relativistic quantum mechanics. | *Relativistic quantum mechanics. | ||
Latest revision as of 20:51, 3 May 2020
- Second quantization formalism for bosons and fermions.
- Applications of second quantization: Hartree-Fock method, magnons, superconductivity and superfluidity.
- Time-dependent perturbation theory: Dyson vs. Magnus expansions.
- Floquet theory of periodically driven time-dependent quantum systems.
- Quantization of the electromagnetic field.
- Nonclassical light.
- Light-matter interaction.
- Dissipative quantum mechanics with application to qubits.
- Relativistic quantum mechanics.
