The advancement of high-power and short-pulse laser technology in the past two decades
has generated considerable interest in the study of multiphoton and very high-order …

Publisher Summary This chapter discusses the recent developments in semiclassical
Floquet theories and their applications to multiphoton excitation, ionization, and dissociation …

A tutorial for calculating the response of molecules to electric and magnetic fields with
examples from research in ultracold physics, controlled chemistry, and molecular collisions …

We present in a self‐contained way a set of theoretical tools that allow us to analyze the
quantum dynamics of atoms or molecules driven by laser pulses and to determine pulse …

We develop adiabatic perturbation theory for quantum systems responding to short laser
pulses, with or without a frequency chirp. Our approach rests on lifting the time-dependent …

Quantum mechanical Floquet theory, a powerful tool for the solution of Schrödinger
equations with a periodically time-dependent Hamiltonian is formalized by the systematic …

Low-power XiX proton decoupling under fast magic-angle spinning is introduced. The
method is applicable if the MAS frequency exceeds the proton–proton interactions. For rigid …

Floquet theory provides rigorous foundations for the theory of periodically driven quantum
systems. In the case of non-periodic driving, however, the situation is not so well understood …

This paper provides a general theoretical description of a weakly bound atomic system (a
negative ion) interacting simultaneously with two (generally strong) fields, a static electric …

Properties of time-periodic Hamiltonians can be exploited to increase the dephasing time of
qubits and to design protected one-and two-qubit gates. Recently, Huang et al.[Phys. Rev …