Quantum transport theory for atomic states through solids

We present a quantum description for the evolution of atomic states of fast projectiles traveling through matter. Our approach is based on the solution of a quantum Langevin equation, i.e., a stochastic time-dependent Schr{umlt o}dinger equation that describes electronic excitations of atoms during their transport through solids. The present description can be considered the quantized version of a previously developed classical transport theory. We analyze in detail the correspondence between classical and quantum transport simulations. Applications to the stripping of relativistic H{sup {minus}} and H through thin carbon foils and a comparison with experimental data are presented. {copyright} {ital 1999} {ital The American Physical Society}