dorsal/arxiv
View SchemaStudy of dissipative dynamics in fission of hot nuclei using Langevin equation
| Authors | Gargi Chaudhuri |
|---|---|
| Categories | |
| ArXiv ID | nucl-th/0411005 |
| URL | https://arxiv.org/abs/nucl-th/0411005 |
Abstract
The fission of highly excited compound nuclei formed in heavy ion induced fusion reactions has emerged as a topic of considerable interest in the recent years. Dissipative dynamical models based on the Langevin equation were developed and were applied successfully for fission dynamics of highly excited heavy nuclei. However, Wall Friction(WF), the standard version of nuclear friction when incorporated in the Langevin dynamical model was not able to reproduce simultaneously experimental data for both prescission neutron multiplicity and fission probability. Consequently, an empirical reduction in the strength of the wall friction was found necessary to reproduce the experimental numbers by many workers. Interestingly, a modification of the wall friction was proposed recently where the reduction was achieved microscopically. This modified version is known as the chaos weighted wall friction(CWWF) which takes into account non-integrability of single particle motion. The work in my thesis aims at using this strongly shape dependent version of friction (CWWF) in the Langevin dynamical model coupled with particle and gamma evaporation in order to verify to what extent it can account for the experimental data of fission of hot nuclei. The experimental data includes excitation functions of prescission neutron multiplicity, fission probability as well as evaporation residue cross-section of a number of nuclei. The importance of transients in nuclear fission is also discussed. The present endeavour is an effort to obtain a clear physical picture of nuclear dissipation which in turn will help in solving many open problems related to collective motion, and in particular, nuclear fission.
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"abstract": "The fission of highly excited compound nuclei formed in heavy ion induced\nfusion reactions has emerged as a topic of considerable interest in the recent\nyears.\n Dissipative dynamical models based on the Langevin equation were developed\nand were applied successfully for fission dynamics of highly excited heavy\nnuclei. However, Wall Friction(WF), the standard version of nuclear friction\nwhen incorporated in the Langevin dynamical model was not able to reproduce\nsimultaneously experimental data for both prescission neutron multiplicity and\nfission probability. Consequently, an empirical reduction in the strength of\nthe wall friction was found necessary to reproduce the experimental numbers by\nmany workers. Interestingly, a modification of the wall friction was proposed\nrecently where the reduction was achieved microscopically. This modified\nversion is known as the chaos weighted wall friction(CWWF) which takes into\naccount non-integrability of single particle motion. The work in my thesis aims\nat using this strongly shape dependent version of friction (CWWF) in the\nLangevin dynamical model coupled with particle and gamma evaporation in order\nto verify to what extent it can account for the experimental data of fission of\nhot nuclei. The experimental data includes excitation functions of prescission\nneutron multiplicity, fission probability as well as evaporation residue\ncross-section of a number of nuclei. The importance of transients in nuclear\nfission is also discussed. The present endeavour is an effort to obtain a clear\nphysical picture of nuclear dissipation which in turn will help in solving many\nopen problems related to collective motion, and in particular, nuclear fission.",
"arxiv_id": "nucl-th/0411005",
"authors": [
"Gargi Chaudhuri"
],
"categories": [
"nucl-th"
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"title": "Study of dissipative dynamics in fission of hot nuclei using Langevin equation",
"url": "https://arxiv.org/abs/nucl-th/0411005"
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