Add to ORKGWe present an efficient algorithm able to predict the trajectories of individual cluster constituents as they penetrate relatively thick amorphous targets. Our algorithm properly treats both the intracluster Coulomb repulsion and the collisions between cluster constituents and target atoms. We have compared our simulation predictions to experimental measurements of the distribution of lateral exit velocities, and demonstrated that the in-target Coulomb explosion of 2MeV/atom carbon clusters in carbon foils must be shielded with a screening length of less than 2.5 Å. We also present a simple phenomenological model for the suppression of the exit-side charge of ions in clusters which depends on the enhanced ionization potential that an electr...
Recently, it was demonstrated that ions impacting a correlated finite graphene-type honeycomb cluste...
Electronic energy loss of molecular clusters as a function of impact parameter is less understood th...
Using molecular-dynamics simulations, we study the processes underlying the stopping of energetic cl...
We present an efficient algorithm able to predict the trajectories of individual cluster constituent...
We present here detailed simulations of the interaction of energetic C10 and C5 clusters at the ener...
Detailed simulations of the interaction of energetic C-60 beams with amorphous targets are presented...
We present here detailed simulations of the interaction of energetic C10 and C5 clusters at the ener...
Although cluster-ion interactions may superficially appear to resemble those in nuclear physics, the...
We use a simulation code to study the interaction of swift boron clusters (Bn+, n=2–6, 14) with amor...
NIMThe independent atom and electron model [1] is introduced in a quantum context and associated app...
A theoretical investigation based on the linear dielectric formalism is presented of the stopping of...
The energy loss of swift Cn+ (n=2–60) clusters moving with velocity 1≲v≲4 a.u. (0.3≲E≲6MeV∕atom) thr...
The energy loss of large molecular-hydrogen clusters incident on aluminum and amorphous carbon targe...
Bombardment with beams of heavy molecular ions (cluster ions) has shown initial promise in a wide ra...
Recent experiments have shown that it is possible to “bounce” low energy (few eV/atom) molecular ion...
Recently, it was demonstrated that ions impacting a correlated finite graphene-type honeycomb cluste...
Electronic energy loss of molecular clusters as a function of impact parameter is less understood th...
Using molecular-dynamics simulations, we study the processes underlying the stopping of energetic cl...
We present an efficient algorithm able to predict the trajectories of individual cluster constituent...
We present here detailed simulations of the interaction of energetic C10 and C5 clusters at the ener...
Detailed simulations of the interaction of energetic C-60 beams with amorphous targets are presented...
We present here detailed simulations of the interaction of energetic C10 and C5 clusters at the ener...
Although cluster-ion interactions may superficially appear to resemble those in nuclear physics, the...
We use a simulation code to study the interaction of swift boron clusters (Bn+, n=2–6, 14) with amor...
NIMThe independent atom and electron model [1] is introduced in a quantum context and associated app...
A theoretical investigation based on the linear dielectric formalism is presented of the stopping of...
The energy loss of swift Cn+ (n=2–60) clusters moving with velocity 1≲v≲4 a.u. (0.3≲E≲6MeV∕atom) thr...
The energy loss of large molecular-hydrogen clusters incident on aluminum and amorphous carbon targe...
Bombardment with beams of heavy molecular ions (cluster ions) has shown initial promise in a wide ra...
Recent experiments have shown that it is possible to “bounce” low energy (few eV/atom) molecular ion...
Recently, it was demonstrated that ions impacting a correlated finite graphene-type honeycomb cluste...
Electronic energy loss of molecular clusters as a function of impact parameter is less understood th...
Using molecular-dynamics simulations, we study the processes underlying the stopping of energetic cl...