Add to ORKGAbstract – The opportunity of description of ato-mic collisions cascades and atomic excitations in cascades in terms of base concepts of a nonequilib-rium statistical physics is shown. The temperature and entropy of atomic collisions cascade in near-surface layer of solids at action by accelerated ions with energy about 10 keV are calculated. The pat-tern of atomic excitations in collisions cascades is offered. Empirical formulas for probability of ioni-zation of secondary atoms most the useful in the practical relation are theoretically justified. 1
Collision physics plays a key role in understanding the properties of ultracold gases. First, collis...
Molecular dynamics simulations are used to study energy and momentum transfer of low-energy Ar atoms...
An accurate knowledge of atomic collision processes is important for a better understanding of many ...
This book is devoted to the calculation of hot-plasma properties which generally requires a huge num...
Atomic collisions offer some unique opportunities to study atomic structure and reaction mechanisms ...
Motivation for the study of hot, dense ($\sim$solid density) plasmas has historically been in connec...
Multiple interaction computer simulations of bombardment cascades have been used to study the surfac...
On fait une brève revue des plus récents travaux expérimentaux et théoriques concernant la collision...
The dynamics of inelastic and reactive collisions in atomic beam-surface scattering are presented. T...
AbstractThis paper attempts an overview of the mechanisms, rates, and characteristics of the several...
Generalized atomic processes are proposed to establish a consistent description from the free-atom a...
A molecular dynamics multiple interactions simulation computer code has been used to study the near-...
We have studied the consequences of statistical fluctuations in collision cascades on mixing of atom...
Abstract. In dense plasmas atomic excitation rates arising from scattering between atoms and surroun...
Measurement of the velocity distribution of sputtered atoms has tested theories of sputtering and ra...
Collision physics plays a key role in understanding the properties of ultracold gases. First, collis...
Molecular dynamics simulations are used to study energy and momentum transfer of low-energy Ar atoms...
An accurate knowledge of atomic collision processes is important for a better understanding of many ...
This book is devoted to the calculation of hot-plasma properties which generally requires a huge num...
Atomic collisions offer some unique opportunities to study atomic structure and reaction mechanisms ...
Motivation for the study of hot, dense ($\sim$solid density) plasmas has historically been in connec...
Multiple interaction computer simulations of bombardment cascades have been used to study the surfac...
On fait une brève revue des plus récents travaux expérimentaux et théoriques concernant la collision...
The dynamics of inelastic and reactive collisions in atomic beam-surface scattering are presented. T...
AbstractThis paper attempts an overview of the mechanisms, rates, and characteristics of the several...
Generalized atomic processes are proposed to establish a consistent description from the free-atom a...
A molecular dynamics multiple interactions simulation computer code has been used to study the near-...
We have studied the consequences of statistical fluctuations in collision cascades on mixing of atom...
Abstract. In dense plasmas atomic excitation rates arising from scattering between atoms and surroun...
Measurement of the velocity distribution of sputtered atoms has tested theories of sputtering and ra...
Collision physics plays a key role in understanding the properties of ultracold gases. First, collis...
Molecular dynamics simulations are used to study energy and momentum transfer of low-energy Ar atoms...
An accurate knowledge of atomic collision processes is important for a better understanding of many ...