This graduate textbook introduces the com-putational techniques to study ultra-fast quantum dynamics of matter exposed to strong laser fields. Coverage includes methods to propagate wavefunctions according to the time dependent Schrödinger, Klein-Gordon or Dirac equation, the calculation of typical observables, time-dependent density functional theory, multi configurational time-dependent Hartree-Fock, time-dependent configuration interaction singles, the strong-field approximation, and the microscopic particle-in-cell approach.
Contents
How to propagate a wavefunction?
Calculation of typical strong-field observables
Time-dependent relativistic wave equations: Numerics of the Dirac and the
Klein-Gordon equation
Time-dependent density functional theory
The multiconfiguration time-dependent Hartree-Fock method
Time-dependent configuration interaction singles
Strong-field approximation and quantum orbits
Microscopic particle-in-cell approach
Contents
How to propagate a wavefunction?
Calculation of typical strong-field observables
Time-dependent relativistic wave equations: Numerics of the Dirac and the
Klein-Gordon equation
Time-dependent density functional theory
The multiconfiguration time-dependent Hartree-Fock method
Time-dependent configuration interaction singles
Strong-field approximation and quantum orbits
Microscopic particle-in-cell approach
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