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Vol. 10, Issue 3, Part B (2024)
Deformation as a function of angular momentum inertia for the nuclei
Deformation as a function of angular momentum inertia for the nuclei
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Abstract
The atomic nucleus is a one-of-a-kind system that contains both microscopic traits and statistical aspects. As a result, it is possible to collect a substantial quantity of information about nuclear parameters at high excitation energy and angular momentum from the nucleus of the atom. It has been discovered that statistical representations of many-body quantum systems are quite frequent in the body of literature that focuses on the characteristics of nuclei that are connected with limited temperatures. This is the case when the literature is studied from a theoretical point of view. Over the course of the past few years, the improved experimental techniques that are available in the field of heavy ion physics have also been a driving factor behind the stimulation of research on highly excited nuclei that are formed in experiments that include heavy ion fusion processes.
The atomic nucleus is a one-of-a-kind system that contains both microscopic traits and statistical aspects. As a result, it is possible to collect a substantial quantity of information about nuclear parameters at high excitation energy and angular momentum from the nucleus of the atom. It has been discovered that statistical representations of many-body quantum systems are quite frequent in the body of literature that focuses on the characteristics of nuclei that are connected with limited temperatures. This is the case when the literature is studied from a theoretical point of view. Over the course of the past few years, the improved experimental techniques that are available in the field of heavy ion physics have also been a driving factor behind the stimulation of research on highly excited nuclei that are formed in experiments that include heavy ion fusion processes.
Pages: 96-102 | 97 Views 48 Downloads
How to cite this article:
Rupinder Kumar Sharma. Deformation as a function of angular momentum inertia for the nuclei. Int J Appl Res 2024;10(3):96-102.
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