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The mesoscopic domain encompasses structures that are best described in terms of the time and length scales which lie between the two extremes of the molecular and the phenomenological description of materials. Important examples of such structures are self-assemblies, emulsions, gels, colloids aggregates and macromolecules networks. Discussing the key advances made in recent years in our understanding of both equilibrium and dynamic aspects of mesoscopic structures, most talks at the conference were given by world class researchers in the field, who included, among others, Prof J S Higgins, CBE, FRS (Imperial College, London), Prof D Frenkel (FOM, Amsterdam), Prof M E Cates (Edinburgh), Prof R C Ball (Warwick), Prof S Ramaswamy (Indian Institute of Science, Bangalore), Prof R Pandit (Bangalore), Dr J A Yeomans (Oxford), Prof S Puri (JNU, New Delhi), Dr D Langevin (CRPP, Bordeaux), and Prof W G M Agterof (Unilever Research, Vlaardingen).
This volume provides up-to-date information on selected topics in nuclear physics and their future prospects. Topics discussed include nuclear astrophysics; synthesis of very heavy elements; physics with exotic nuclei; heavy ion collisions; spin-isospin excitation. This volume contains 47 papers by invited speakers and nine summaries by chairpersons.
This book covers: - the latest developments in synthesizing super-heavy elements at RIKEN and GSI, and in theories of fusion-fission dynamics - studies of nuclei far from stability and clustering phenomena in nuclei including the present status and future plan of RIB facilities at GSI, GANIL, and RIKEN - transmutation of nuclear waste in Europe, Japan, and Asia - nuclear astrophysics with emphasis on nuclear physics in space, radio-nuclides in the galaxy, nuclear data for astrophysics, nuclear reactions for astrophysics, and neutron stars and other stars
This book covers the latest developments in synthesizing super-heavy elements at RIKEN, GSI, and GANIL as well as in theories of fusion-fission dynamics. It also examines the latest results in the studies of nuclei far from stability and the clustering phenomena in nuclei, including the present status and future prospects of European and Japanese RIB facilities. In addition, the book details the latest developments in nuclei astrophysics.
This book covers the latest developments of stellar structure and evolution, cosmology, and nuclear reactions in astrophysics experiments in an attempt to synthesize super-heavy elements at Dubna and GSI, follow-up experiments at GANIL and RIKEN, and related theories. Topics include nuclear astrophysics, atomic cluster physics, physics for nuclear transmutation, physics with exotic nuclei, and super heavy elements.
This book is a collection of talks presented at the International Symposium on Exotic Nuclei, held at Lake Baikal, Russia, on 24 - 28 July 2001. The talks were given by the leading scientists in the physics of exotic nuclei.Among the topics of the Symposium were the following: production and study of properties of nuclei in extreme states, strongly deformed nuclei, highly excited nuclei and nuclei far from the line of stability as well as nuclei having large angular momenta.New results of investigations are presented in the book ? in particular, the data on new nuclei with proton or neutron haloes, on the changes in the shell structure of nuclei near the drip lines, and on the structure of exotic nuclei, including information on the island of inversion. The latest results on the synthesis of new superheavy elements are also provided, and existing detecting devices and accelerators of exotic nuclei, as well as future projects for the creation of similar set-ups, are presented.
Launched in 2004, "Nuclear Physics in Astrophysics" has established itself in a successful topical conference series addressing the forefront of research in the field. This volume contains the selected and refereed papers of the 2nd conference, held in Debrecen in 2005 and reprinted from "The European Physical Journal A - Hadrons and Nuclei".
Vol. 2. pt. III. New cluster radioactivity and the superasymmetric fission: experiments and theory. ch. 16. Measurements on cluster radioactivity - present experimental status / R. Bonetti and A. Guglielmetti -- ch. 17. Numerical and analytical super-asymmetric fission model for exotic cluster decays / D.N. Poenaru and W. Greiner -- ch. 18. Collective description of exotic cluster decays and shell structure effects of parent/daughter nuclei / R.K. Gupta -- ch. 19. Fine structure in cluster radioactivity / M. Mirea and R.K. Gupta -- ch. 20. Super-asymmetric cold fission and exotic cluster-decay processes / R.K. Gupta and W. Scheid -- ch. 21. Cold binary and ternary fragmentations as an extension of cluster radioactivity / A. Sandulescu [und weitere] -- pt. IV. Extensions in new directions: nuclear astrophysics, physics of nuclei near drip-lines and strange matter: experiments and theory. ch. 22. Nuclear astrophysics at the beginning of the twenty-first century / R.N. Boyd -- ch. 23. Two- and three-body properties of Halo nuclei / I.J. Thompson and J.S. Vaagen -- ch. 24. Properties of light nuclei near drip-lines in the relativistic mean-field theory / S.K. Patra, R.K. Gupta and W. Greiner -- ch. 25. Heavy-ion fusion reactions at energies below the Couloumb barrier / N. Takigawa and K. Hagino -- ch. 26. Neutron drip-line nuclei: their Halo structure, synthesis, and decay via cluster emissions / R.K. Gupta [und weitere] -- ch. 27. Physics of strange matter / Carsten Greiner and J. Schaffner-Bielich
Until the publication of Introduction to Nuclear Reactions, an introductory reference on nonrelativistic nuclear reactions had been unavailable. Providing a concise overview of nuclear reactions, this reference discusses the main formalisms, ranging from basic laws to the final formulae used to calculate measurable quantities. Well known in their fields, the authors begin with a discussion of scattering theory followed by a study of its applications to specific nuclear reactions. Early chapters give a framework of scattering theory that can be easily understood by the novice. These chapters also serve as an introduction to the underlying physical ideas. The largest section of the book comprises the physical models that have been developed to account for the various aspects of nuclear reaction phenomena. The final chapters survey applications of the eikonal wavefunction to nuclear reactions as well as examine the important branch of nuclear transport equations. By combining a thorough theoretical approach with applications to recent experimental data, Introduction to Nuclear Reactions helps you understand the results of experimental measurements rather than describe how they are made. A clear treatment of the topics and coherent organization make this information understandable to students and professionals with a solid foundation in physics as well as to those with a more general science and technology background.