Classical Systems
> In general.
> Hamiltonian systems.
> Lagrangian systems.
> Higher-order Lagrangians.
> Constrained systems.
> Parametrized systems.
> Integrable and Chaotic.
> Statistical mechanical systems.
> Thermodynamic systems.
> Fluids and
Acoustics.
> Radiation.
> Dissipative systems.
> Stochastic processes.
> Brownian motion.
> Oscillators.
Quantum Systems
> In general.
> Oscillators.
> Open systems.
> Composite systems.
> Macroscopic systems.
> Constraints – First-class.
> Constraints – Second-class.
> Path integrals.
> Coherent states.
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Classical
Field Theories
> Types of theories.
> Wave equations.
> Maxwell fields.
> Maxwell
fields – Formulations.
> Maxwell
fields – Curved spacetime.
> Electrodynamics – Variations.
> Born-Infeld theory.
> Sigma models.
> Scalar fields.
> Klein-Gordon fields.
> Dilaton fields.
> Spinor fields.
> Dirac
fields and Curved spacetime.
> Low-spin
fields and Spin-2 fields.
> Arbitrary-spin fields.
> Gauge theory.
> BF theories.
> Chern-Simons fields.
> Gauge
theory – Types.
> Gauge
theory – Solutions.
> Gauge
theory – Yang-Mills.
> Topological field theories.
> Supersymmetric theories.
> Non-local theories.
> Lattice theories.
> Axions.
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Quantum
Field Theories
> Effective field theories.
> Types of theories.
> Modified quantum field theories.
> Klein-Gordon fields.
> Dirac fields.
> Gauge fields.
> Gauge
fields – Path integrals.
> QED.
> QED
– In curved spacetime.
> QED – Phenomenology.
> QED – Modified versions.
> QCD.
> QCD – Phenomenology.
> Renormalization.
> Non-commutative.
More...
> General
system theory.
> Coupled spin models.
> Ising models.
s.a. Physics [matter, etc].
s.a. Quantum Theory.
s.a. Particles and Fields.
s.a. Gravitation and Cosmology. |