Study of multinucleon transfer mechanism in   ${}^{160}\mathrm{Gd}+{}^{186}\mathrm{W}$ collisions in stochastic mean-field   theory}

S. Ayik; M. Arik; E. Erbayri; O. Yilmaz; and A. S. Umar

arXiv:2308.00131·nucl-th·August 2, 2023

Study of multinucleon transfer mechanism in ${}^{160}\mathrm{Gd}+{}^{186}\mathrm{W}$ collisions in stochastic mean-field theory}

S. Ayik, M. Arik, E. Erbayri, O. Yilmaz, and A. S. Umar

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TL;DR

This paper investigates multinucleon transfer in ${}^{160} ext{Gd}+{}^{186} ext{W}$ collisions using stochastic mean-field theory, providing microscopic insights beyond TDHF and comparing results with experimental data.

Contribution

It introduces a stochastic mean-field approach to model multinucleon transfer, capturing fluctuations beyond traditional methods.

Findings

01

Calculated transfer cross-sections agree with experimental data.

02

SMF theory effectively describes fluctuations in nuclear dynamics.

03

Provides microscopic understanding of multinucleon transfer mechanisms.

Abstract

Multinucleon transfer mechanism in collision of $^{160} Gd +^{186} W$ system is investigated in the framework of quantal transport description, based on the stochastic mean-field (SMF) theory. The SMF theory provides a microscopic approach for nuclear dynamics beyond the time-dependent Hartree-Fock (TDHF) approach by including mean-field fluctuations. Cross-sections for the primary fragment production are determined in the quantal transport description and compared with the available data.

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Taxonomy

TopicsHigh-Energy Particle Collisions Research · Nuclear physics research studies · Statistical Mechanics and Entropy