Microscopic description of neutron emission rates in compound nuclei

Yi Zhu (朱怡) and J. C. Pei (裴俊琛)
Phys. Rev. C 90, 054316 – Published 14 November 2014

Abstract

Background: The neutron emission rates in thermal excited nuclei are conventionally described by statistical models with a phenomenological level density parameter that depends on excitation energies, deformations, and mass regions. In the microscopic view of hot nuclei, the neutron emission rates can be determined by the external neutron gas densities without any free parameters. Therefore a microscopic description of thermal neutron emissions is desirable that can aid in understanding such properties as the survival probabilities of superheavy compound nuclei and neutron emissivity in reactors.

Purpose: To describe neutron emission rates in deformed compound nuclei, the external thermal neutron gases are self-consistently obtained based on the finite-temperature Hartree-Fock-Bogoliubov (FT-HFB) approach.

Methods: The Skyrme FT-HFB equation is solved by the HFB-AX solver in deformed coordinate spaces. Based on the FT-HFB approach, the thermal properties and external neutron gases are properly described with the self-consistent gas substraction procedure. Then neutron emission rates can be obtained with the densities of external neutron gases. The results are compared with the statistical model to explore the connections between the FT-HFB approach and the statistical model.

Results: The thermal statistical properties of U238 and U258 are studied in detail in terms of excitation energies. The thermal neutron emission rates in U238,258 and superheavy compound nuclei Cn112278 and Fl114292 are calculated, which agree well with the statistical model by adopting variables from FT-HFB.

Conclusions: The coordinate-space FT-HFB approach can provide reliable microscopic descriptions of neutron emission rates in hot nuclei, as well as microscopic constraints on the excitation energy dependence of level density parameters for statistical models.

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  • Received 10 September 2014
  • Revised 15 October 2014

DOI:https://doi.org/10.1103/PhysRevC.90.054316

©2014 American Physical Society

Authors & Affiliations

Yi Zhu (朱怡) and J. C. Pei (裴俊琛)*

  • State Key Laboratory of Nuclear Physics and Technology, School of Physics, Peking University, Beijing 100871, China

  • *peij@pku.edu.cn

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Vol. 90, Iss. 5 — November 2014

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