Dynamics of Wave Packets in Molecular and Nuclear Physics

Classical plane trajectories and their quantum analogs in a billiard and two spheroidal cavities.- Quantum dynamics of wavepackets on two-dimensional potential energy surfaces governing nuclear fission.- Information-theoretical analysis of wave packet dynamics in bound systems.- The gauge invariant method for quantization and tunneling in Hamilton systems.- Particle-solid interactions.- Time-dependent density functional theory.- Time-independent wave packet theory of collisions.- Quantal one-body dissipation and the wall formula.- Localization of single-particle states in the continuum.- Recent progress in semiclassical wavepacket methods for chemical physics applications.- Gauge invariant period quantized wave packets.- Perspective of Gaussian wave packet technology for polyatomic systems.- Application of the time-dependent wave packet method to Collision induced dissociation calculations.- Creation and time evolution of the coherent rotational states.- Dynamics of wave packets and strong nonadiabatic effects.- Motion of wavepackets-sensitivity to the initial conditions.- Quantum resonances in physical tunneling.- Wavepackets in nuclear physics.- Semiclassical many-pahticle dynamics with Gaussian wave packets.- Gaussian wave packet dynamics expressed in the classical interaction picture.- General aspects of wave packet dynamics.- Conclusion.