A Time-Dependent Theory of Quantum Resonances

This review summarizes theoretical formulations of resonance Raman scattering that express the steady-state spectrum in terms of time-dependent quantities. Time-domain expressions for the Raman or direct one-photon absorption (electronic or vibrational) lineshape are compared and contrasted with tim

A quantum fluid density functional theory has been developed through an amalgamation of the quantum fluid dynamics and the time-dependent density functional theory. It is used in studying typical time-dependent processes like ion᎐atom collisions and atom᎐field interaction. Temporal evolution of chem

Results from a time-dependent quantum-mechanical study of the collinear reaction He+H: +HeH+ +H are reported in the form of reaction probability values as a function of the total energy of the system for different vibrational states of Hz. The resonances are related to flux patterns similar to that

## Abstract Relativistic resonances and decaying states are described by representations of Poincaré transformations, similar to Wigner's definition of stable particles. To associate decaying state vectors to resonance poles of the __S__‐matrix, the conventional Hilbert space assumption (or asympto

## Abstract This paper proposes a direct, quantum‐mechanical definition for Γ (effective action) using a two‐step procedure for applying the variational principle to time‐dependent quantum problems.