Microscopic Description Of Nuclear Fission At Finite Temperature
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| Author | : Jordan David McDonnell |
| Publisher | : |
| Total Pages | : 97 |
| Release | : 2012 |
| Genre | : |
| ISBN | : |
While a predictive, microscopic theory of nuclear fission has been elusive, advances in computational techniques and in our understanding of nuclear structure are allowing us to make significant progress. Through nuclear energy density functional theory, we study the fission of thorium and uranium isotopes in detail. These nuclides have been thought to possess hyperdeformed isomers in the third minima of their potential energy surfaces, but microscopic theories tend to estimate either shallow or non-existent third minima in these nuclei. We seek an explanation in terms of neutron shell effects. We study how the fission pathways, the symmetry, and the third minima of these nuclei evolve with increasing excitation energy. We then study the fission of mercury-180, in which a recent experiment unexpectedly discovered that this nucleus fissions asymmetrically. We find that the fission of mercury-180 and mercury-198 is driven by subtleties in shell effects on the approach to scission. We finally survey fission barrier heights and spontaneous fission half-lives of several actinide nuclei, from radium to californium. For a new energy density functional, we find good agreement between our calculations and available experimental data, lending confidence to the predictions of our theory beyond experimentally measured nuclei.
| Author | : Walid Younes |
| Publisher | : Springer |
| Total Pages | : 326 |
| Release | : 2019-01-09 |
| Genre | : Science |
| ISBN | : 3030044246 |
This book introduces a quantum-mechanical description of the nuclear fission process from an initial compound state to scission. Issues like the relevant degrees of freedom throughout the process, the way of coupling collective and intrinsic degrees during the fission process, and how a nucleus divides into two separate daughters in a quantum-mechanical description where its wave function can be non-local, are currently being investigated through a variety of theoretical, computational, and experimental techniques. The term “microscopic” in this context refers to an approach that starts from protons, neutrons, and an effective (i.e., in-medium) interaction between them. The form of this interaction is inspired by more fundamental theories of nuclear matter, but still contains parameters that have to be adjusted to data. Thus, this microscopic approach is far from complete, but sufficient progress has been made to warrant taking stock of what has been accomplished so far. The aim is to provide, in a pedagogical and comprehensive manner, one specific approach to the fission problem, originally developed at the CEA Bruyères-le-Châtel Laboratory in France. Intended as a reference for advanced graduate students and researchers in fission theory as well as for practitioners in the field, it includes illustrative examples throughout the text to make it easier for the reader to understand, implement, and verify the formalism presented.
| Author | : |
| Publisher | : |
| Total Pages | : 10 |
| Release | : 2013 |
| Genre | : |
| ISBN | : |
| Author | : |
| Publisher | : |
| Total Pages | : 7 |
| Release | : 2012 |
| Genre | : |
| ISBN | : |
| Author | : Luigi Coraggio |
| Publisher | : Frontiers Media SA |
| Total Pages | : 209 |
| Release | : 2021-03-10 |
| Genre | : Science |
| ISBN | : 2889665852 |
| Author | : Herlik Wibowo |
| Publisher | : |
| Total Pages | : 179 |
| Release | : 2020 |
| Genre | : Nuclear excitation |
| ISBN | : |
The low-energy nuclear response at finite-temperature significantly affects the radiative neutron capture reaction rates of the r-process nucleosynthesis. In order to address this topic, the first part of this study focuses on the response of compound nuclei or nuclei at finite temperature. The thermal nuclear response satisfies the Bethe-Salpeter equation (BSE) with the static and dynamical kernels of different origins. While the origin of the static kernel is the nearly instantaneous nucleon-meson interaction, the dynamical kernel is induced by the coupling between nucleons and phonons. The presence of singularities in the dynamical kernel makes the BSE unsolvable, however, a time projection technique known for the zero-temperature case allows for constructing a hierarchy of feasible approximations. In this study a temperature-dependent projection operator on the subspace of the imaginary time was found to generalize the method to finite temperatures. The method named the finite-temperature relativistic time blocking approximation (FT-RTBA), is implemented numerically to calculate the multipole responses of medium-mass and heavy nuclei. This study reveals common phenomena that occur for all thermal multipole responses: the disappearance of the high-frequency collective motion at very high temperature and arising prominent low-energy strength of thermal origin. The inclusion of pairing correlations and continuum effects is essential for an accurate microscopic description of the nuclear response of the exotic nuclei far from the valley of beta-stability and close to the drip-lines. Therefore, the second part of this study aims to extend the current zero-temperature nuclear response theory, which is based on the contact effective interactions between nucleons and takes into account the pairing correlations within the framework of the BCS approximation and exact coupling to the continuum. This extension involves the application of the time-blocking approximation in the coordinate space representation to incorporate the coupling between nucleons and phonons, which is the leading-order mechanism of the fragmentation of the nuclear multipole responses at both low- and high-frequency domains.
| Author | : Patrick Talou |
| Publisher | : Springer Nature |
| Total Pages | : 487 |
| Release | : 2023-01-01 |
| Genre | : Science |
| ISBN | : 3031145453 |
This book provides advanced students and postdocs, as well as current practitioners of any field of nuclear physics involving fission an understanding of the nuclear fission process. Key topics covered are: fission cross sections, fission fragment yields, neutron and gamma emission from fission and key nuclear technologies and applications where fission plays an important role. It addresses both fundamental aspects of the fission process and fission-based technologies including combining quantitative and microscopic modeling.
| Author | : Jutta Escher |
| Publisher | : Springer Nature |
| Total Pages | : 312 |
| Release | : 2021-02-08 |
| Genre | : Science |
| ISBN | : 3030580822 |
The Compound-Nuclear Reaction and Related Topics (CNR*) international workshop series was initiated in 2007 with a meeting near Yosemite National Park. It has since been held in Bordeaux (2009), Prague (2011), Sao Paulo (2013), Tokyo (2015), and Berkeley, California (2018). The workshop series brings together experts in nuclear theory, experiment, data evaluations, and applications, and fosters interactions among these groups. Topics of interest include: nuclear reaction mechanisms, optical model, direct reactions and the compound nucleus, pre-equilibrium reactions, fusion and fission, cross section measurements (direct and indirect methods), Hauser-Feshbach theory (limits and extensions), compound-nuclear decays, particle and gamma emission, level densities, strength functions, nuclear structure for compound-nuclear reactions, nuclear energy, nuclear astrophysics, and other topics. This peer-reviewed proceedings volume presents papers and poster summaries from the 6th International Workshop on Compound-Nuclear Reactions and Related Topics CNR*18, held on September 24-28, 2018, at Lawrence Berkeley National Lab, Berkeley, CA.
| Author | : Marcello Baldo |
| Publisher | : World Scientific |
| Total Pages | : 526 |
| Release | : 1999-11-15 |
| Genre | : Science |
| ISBN | : 9814500852 |
The theoretical study of the nuclear equation of state (EOS) is a field of research which deals with most of the fundamental problems of nuclear physics. This book gives an overview of the present status of the microscopic theory of the nuclear EOS. Its aim is essentially twofold: first, to serve as a textbook for students entering the field, by covering the different subjects as exhaustively and didactically as possible; second, to be a reference book for all researchers active in the theory of nuclear matter, by providing a report on the latest developments. Special emphasis is given to the numerous open problems existing at present and the prospects for their possible solutions.The general framework of the different approaches presented in the book is the meson theory of nuclear forces — where no free parameter is introduced — and the many-body treatment of nucleon-nucleon correlations. The ultimate hope of this world-wide effort is the understanding of the structure of nuclear matter, both in the ground state and at finite temperature.The main audience addressed is the community of theoretical nuclear physicists, but nuclear experimentalists and astrophysicists will also find in the book an extensive amount of material of direct interest for their everyday work, particularly for those studying heavy-ion collisions, where the nuclear EOS is of special relevance. Finally, theoretical physicists working on elementary particle theory could find in the book some stimulating ideas and problems directly related to their field.
| Author | : Paul Denis Stevenson |
| Publisher | : Frontiers Media SA |
| Total Pages | : 171 |
| Release | : 2021-03-08 |
| Genre | : Science |
| ISBN | : 2889665674 |
