edited by G N Chuev (Russian Academy of Sciences) , V D Lakhno (Russian Academy of Sciences) , & A P Nefedov (Russian Academy of Sciences)

The physics of clusters is a new and rapidly developing area. It is a frontier in the field of atomic and molecular physics, and condensed matter physics.

One of the biggest concerns in the study of the physics of clusters is the methods of cluster measurements. The findings reported in this book on the methods of cluster measurements will lead to new avenues using nondestructive mass spectrometry and dipole mass isomers.

Much attention is given to the physics and chemistry of fullerenes and nanotubes, including the problems surrounding the formation and growth of nanotubes, electron characteristics of fullerenes, the influence of solvents, simulation of the properties of carbon clusters, etc. Some unique experimental data on the conversion of aerosols into aerogels with the formation of fractal structures is provided. In addition, the book covers one of the most interesting subjects of modern physics — fractal clusters.

Quantitative information on the thermodynamic properties of transition metal clusters, their binding energies to various ligands, and their reactions is obtained using a metal cluster guided ion beam mass spectrometer. Measurement of the thermodynamic stability of transition metal clusters is reported. The thermodynamic data given is unique, in that no comparable information has been obtained from any other method.

Other topics of interest include atomic collision processes (including studies of electron attachment); oxidation; fundamental physical and chemical properties of clusters in the gas phase and in plasma (such as their geometrical and electron structure, magnetic, optical, chemical characteristics, etc.), and the wide range of their potential applications (including nucleation and growth of small particles such as aerosols, development of new materials with predetermined properties (cluster ensembles and nanophase materials), growing of thin films, cluster nanowire contacts, cluster lamps, dusty plasma, etc.

• Dusty Plasma and Hot Clusters:
  • Ordered Structures in Low Temperature Dusty Plasmas (V E Fortov et al.)
  • Cluster Plasma of Light Source (B M Smirnov)
• Clusters Consisting of Polar Molecules:
  • Approaching Water Through Clusters (M D Tissandier et al.)
  • Influence of Solvation Upon Electron Affinities of Polar Molecules (V Periquet et al.)
• Metal Clusters:
  • Thermochemistry and Reactivity of Transition Metal Cluster Ions (P B Armentrout et al.)
  • Shell Structure and Ionization Potentials of Lithium Monoxide Clusters (H Weidele et al.)
• Theory and Modeling of Clusters:
  • Fullerenes in Solutions (A V Eletskii & M V Okun)
  • Quantum Chemical Simulation of Non-Regular Covalent Structures (A S Kaklyugin & G E Norman)
  • and other papers