In this Reply it is claimed that, although in the Comment by Tkachenko, Muñoz-Cobo, and Muñoz, a full random-phase (RP) analysis of the problem of the stopping power of an expanding charged ion cluster is presented, the main conclusions drawn by these authors are substantially identical to those of our paper [Phys. Rev. E 51, R2755 (1995)], where only collective effects were considered. Indeed, the strong enhancement of the stopping power of the ion cluster with respect to that evaluated for the same number of uncorrelated projectiles at high velocity, and the decreasing two-ion correlation effect for increasing velocity spread and interaction time, are already predicted in our paper. The full RP approximation makes the behavior of the stopping power at slightly suprathermal velocities more regular.
Reply to Comment on: "Stopping power of nonmonochromatic heavy-ion clusters with two-ion correlation effects"
M Lontano;
1997
Abstract
In this Reply it is claimed that, although in the Comment by Tkachenko, Muñoz-Cobo, and Muñoz, a full random-phase (RP) analysis of the problem of the stopping power of an expanding charged ion cluster is presented, the main conclusions drawn by these authors are substantially identical to those of our paper [Phys. Rev. E 51, R2755 (1995)], where only collective effects were considered. Indeed, the strong enhancement of the stopping power of the ion cluster with respect to that evaluated for the same number of uncorrelated projectiles at high velocity, and the decreasing two-ion correlation effect for increasing velocity spread and interaction time, are already predicted in our paper. The full RP approximation makes the behavior of the stopping power at slightly suprathermal velocities more regular.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
