Background
Sitenko, Alex Olexij Gregory was born on February 12, 1927 in Baturin, Chernihiv, Ukraine. Son of Gregory P. and Praskovia (Spichenko) Sitenko.
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("Nuclear Electrodynamics" quantitatively describes both n...)
"Nuclear Electrodynamics" quantitatively describes both nuclear electromagnetic properties and processes of the electromagnetic interaction.The main emphasis is on the derivation of basic equations. The book is intended for both theorists and experimentalists specializing in this field. Contents: - Introduction - Electromagnetic Multipole Moments - Interaction Between Nuclei and Electromagnetic Radiation - Electron-Nucleus Interaction (Elastic and Inelastic Scattering) - Electron-Nucleus Interaction (Nuclear Electrodisintegration and Inclusive Processes) - Electromagnetic Interaction between Heavy Charged Particles and Nuclei - References - Subject Index
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(This book is an introduction to the field of modern plasm...)
This book is an introduction to the field of modern plasma physics theory. The topics have been carefully chosen by the authors after many years teaching a graduate course in this subject. The book contains a comprehensive description of three widely used models in plasma physics: one-particle, hydro-dynamic and kinetic. The original results concerning fluctuation theory, nonlinear wave interaction and plasma turbulence have been obtained within the framework of the kinetic approach. This volume will be of particular interest to graduate students and researchers studying plasma physics as well as statistical physics and magnetohydrodynamics. It will also be of use to students and researchers in physical astronomy, particularly in other space plasma physics such as solar physics and stellar structure. The elements of the kinetic theory of gases.
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(Modern nuclear physics is a well developed branch of phys...)
Modern nuclear physics is a well developed branch of physical science, with wide-ranging applications of its results in engineering and industry. At the same time, the development of a consistent theory of nuclei and nuclear processes presents certain problems. It is well known that the most important aim of nuclear physics is the study of nuclear structure and the explanation of properties on the basis of the interaction between nucleons which constitute nuclei. Difficulties of a modern theory of the nucleus are caused by both an insufficient knowledge of nuclear interactions and the multi particle character of nuclear systems. Experimental data on nuclear interactions do not contradict the hypothesis of the pair character of nuclear forces. However, the absence of rigorous meth ods of calculations of many particle nuclear systems with strong interaction makes it necessary to use macroscopic nuclear models to describe particular nuclear properties. Nuclear models have been developed in different ways, and the models themselves have been modified and complicated. In spite of the visible discrepancy, different models of the nucleus significantly supple ment one another. The development of nuclear models has led to considerable progress in the understanding of atomic nuclei. The current results of theo retical nuclear physics are reported in numerous scientific papers. The most important and relevant experimental and theoretical results can be found in many monographs, the best of which are written by well-known experts in the field.
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(Provides an advanced and up-to-date account of the theory...)
Provides an advanced and up-to-date account of the theory of nuclear structure and discusses in considerable detail both the superfluid and collective models of the nucleus, in addition to earlier complementary models and theories. The book also examines other important topics such as the rotational and vibrational spectra of nuclei which have not previously been treated in such depth. To summarize, it covers a large amount of theoretical ground in one volume and attempts to fill a serious gap in the literature. Many problems are included
http://www.amazon.com/gp/product/0080178766/?tag=2022091-20
(Modern nuclear physics is a well developed branch of phys...)
Modern nuclear physics is a well developed branch of physical science, with wide-ranging applications of its results in engineering and industry. At the same time, the development of a consistent theory of nuclei and nuclear processes presents certain problems. It is well known that the most important aim of nuclear physics is the study of nuclear structure and the explanation of properties on the basis of the interaction between nucleons which constitute nuclei. Difficulties of a modern theory of the nucleus are caused by both an insufficient knowledge of nuclear interactions and the multi particle character of nuclear systems. Experimental data on nuclear interactions do not contradict the hypothesis of the pair character of nuclear forces. However, the absence of rigorous meth ods of calculations of many particle nuclear systems with strong interaction makes it necessary to use macroscopic nuclear models to describe particular nuclear properties. Nuclear models have been developed in different ways, and the models themselves have been modified and complicated. In spite of the visible discrepancy, different models of the nucleus significantly supple ment one another. The development of nuclear models has led to considerable progress in the understanding of atomic nuclei. The current results of theo retical nuclear physics are reported in numerous scientific papers. The most important and relevant experimental and theoretical results can be found in many monographs, the best of which are written by well-known experts in the field.
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Sitenko, Alex Olexij Gregory was born on February 12, 1927 in Baturin, Chernihiv, Ukraine. Son of Gregory P. and Praskovia (Spichenko) Sitenko.
Bachelor in Physics, Kharkiv (Ukraine) University, 1949. Doctor in Physics and Mathematics, Kharkiv (Ukraine) University, 1959.
From lecturer to professor physics, Kharkiv U., 1949-1961; professor, Kharkiv U., 1961-1963; head nuclear theory department, Institute Physics, Kiev, Ukraine, 1961-1968; professor, Kiev U., since 1963; Soros professor, Kiev U., since 1994; head nuclear theory department, Bogolyubov Institute Theoretical Physics, Kiev, since 1968; director, Bogolyubov Institute Theoretical Physics, Kiev, since 1988.
(Provides an advanced and up-to-date account of the theory...)
(Provides an advanced and up-to-date account of the theory...)
(Modern nuclear physics is a well developed branch of phys...)
(Modern nuclear physics is a well developed branch of phys...)
("Nuclear Electrodynamics" quantitatively describes both n...)
(This book is an introduction to the field of modern plasm...)
Member Ukranian Physical Society, Ukranian Academy of Sciences (Sinelnikov prize 1978, Bogolyubov prize 1993), Kiev Physical Society (chairman since 1989), American Physical Society, Ukranian Mohylo-Mazepian Academy (honorary), Royal Swedish Academy of Sciences (foreign), New York Academy of Sciences, Hungarian Academy of Sciences (honorary, International Walter Thirring prize 2000).
Married Helen I. Fedorkova, July 23, 1950 (deceased July 1965). Children: Jurij A., Alla A. (deceased). Married Joanna G. Zhak, August 28, 1968.
1 child, Gregory A.
