Physics of Clusters. Clusters in Plasma and Gases
Physics of Clusters. Clusters in Plasma and Gases /eds. V.D.Lakhno, G.N.Chuev. –
Pushchino : Pushchino Research Center, 1997, 260 p. ( in Russian )
Contents :
| Title | Page |
|---|---|
| PREFACE | 3 |
| N.K.Balabaev, V.D.Lakhno, A.N.Pankratov, M.N.Ustinin. Polaron states in uncharged molecular clusters. | 4 |
| A.Yu.Ermilov, V.I.Pupyshev, N.F.Stepanov. Changes in the geometrical parameters of a benzene molecule in systems (C6H6)n┘Lim. | 13 |
| M.D.Ermolaeva, K.V.Shaitan. Dynamical modulation of quantum pulsation and transfer rates in a three-level system. | 19 |
| D.I.Zhukhovitsky. The study of clucter evolution in a three-temperature system by molecular dynamics method. | 27 |
| D.I.Zhukhovitsky. A model of virtual chains to describe small gas-like clusters. | 33 |
| I.B.Zolotoy, G.V.Karpov. Model presentation of electrolyte solutions based on mass-spectra of ion clusters evaporated from solutions into vacuum on exposure to a strong electric field. | 40 |
| V.K.Ivanov, A.N.Ipatov. Optimized model of a “jelly” for clusters with screened coulomb interaction. | 59 |
| A.S.Kaklyugin, G.E.Norman. Computer simulation of irregular covalent structures. | 76 |
| A.V.Karnaukhov, V.V.Novikov. An estimate of stability of molecular ion clusters. | 114 |
| G.V.Karpov, N.B.Zolotoy. Distribution of alkali metal ions by the solvation extent in solutions. | 118 |
| V.D.Lakhno. On critical sizes of negatively charged metal clusters. | 123 |
| V.D.Lakhno. Life-time bipolaron states in a water cluster. | 126 |
| V.D.Lakhno. A cluster model of self-consistent nucleon states in a nucleus. | 127 |
| Yu.E.Lozovik, A.M.Popov. The mechanisms of the growth of one-shell and multi-shell carbonic nanotubes and cones. | 139 |
| Yu.E.Lozovik, S.P.Merkulova, A.M.Popov. Producing of on image by way of self-organization of clusters adsorbed on a modified surface. | 150 |
| M.A.Mazo. Dendrimers – are a new class of molecules-particles: modeling of their structure and properties. | 160 |
| A.V.Nemukhin. Modeling of the structure and dynamics of clusters consisting of few atoms. | 180 |
| Yu.V.Novakovskaya, N.F.Stepanov. Nonempirical modeling of small positively charged water clusters. | 194 |
| B.M.Smirnov. Processes in a Cluster Plasma. ( in English ) | 205 |
| D.L.Tytik. A module approach to the description of the structure of water clusters. Numerical and fullscale modeling. | 222 |
| V.S.Filinov. Calculation of quantum time correlation functions by a generalized molecular dynamics method in a canonical ansamble. | 233 |
| G.N.Chuev. Clusterization of inert gas on excess electron. | 246 |
| A.V.Shcherbinin, V.I.Pupyshev, A.Yu.Ermilov. One-electron atom in a cavity as a model of the electron state of internal atoms in a cluster. | 252 |