Skip to content

SKMS

Laboratory of Quantum-Mechanical Systems

  • Main
  • News
  • Investigations
  • Publications
    • Publications
    • Monographs
    • Proceedings
    • Manuals
  • Staff
    • Full list
    • Lakhno Victor Dmitrievich
    • Fialko Nadezhda Sergeevna
    • Gabdoulline Razif Rifovich
    • Kudryashova Olga Vladimirovna
    • Molchanova Dina Al’bertovna
    • Shigaev Aleksey Sergeevich
    • Sobolev Egor Vasil’evich
    • Tikhonov Dmitry Anatolievich
    • Former employees
  • History
    • Ponomarev Oleg Aleksandrovich
  • Русский
  • English
  • Home
  • Publications
  • Manuals
  • Physics of Clusters. Clusters in Plasma and Gases

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

Поделиться ссылкой:

  • Facebook
  • X
  • The book HIGH-TEMPERATURE SUPERCONDUCTIVITY. BIPOLARON MECHANISM

Copyright © 2021 SKMS. IMPB RAS

Theme: Oceanly by ScriptsTown

← Manuals ← Review of the studies carried out