S. M. Mirfathi scite author profile

S. M. Mirfathi

4Publications

33Citation Statements Received

69Citation Statements Given

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132

Affiliations

University of Mazandaran, Payame Noor University

Publications

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Dynamical simulation of energy dissipation in asymmetric heavy-ion induced fission ofPb200,Fr213
Mirfathi
¹
,
Pahlavani
²

2008
Phys. Rev. C
43
0
12
0
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The dynamical model based on the asymmetric mass division has been applied to calculate pre-scission neutron multiplicity from heavy-ion induced fusion-fission reactions. Links between the pre-scission neutron multiplicity, excitation energy, and asymmetric mass distribution are clarified based on the Monte Carlo simulation and Langevin dynamics. The pre-scission neutron multiplicity is calculated and compared with the respective experimental data over a wide range of excitation energy and nonconstant viscosity. The analysis indicates a different effect for the application of asymmetric mass division in different energy regions of such processes.

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Dynamics of neutron-induced fission ofU235using four-dimensional Langevin equations

Pahlavani

Mirfathi

2015

Phys. Rev. C

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Dynamical simulation of neutron-induced fission of uranium isotopes using four-dimensional Langevin equations

Pahlavani

Mirfathi

2016

Phys. Rev. C

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Dynamical Simulation of Emission Angle Dependence of Fragments Spin in Heavy Ion Fusion–fission Reactions

Pahlavani

Naderi

Mirfathi

2010

Int. J. Mod. Phys. E

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In this paper, a formalism consisting of multi-dimensional Langevin equation (LE) and Scission point Transition State Model (SCTSM) have been applied to study the angle dependence of fragment's average spin for 16 O + 209 Bi and 16 O + 232 Th systems. The influence of asymmetry and deformation parameters, neck thickness of compound nucleus and pre-scission neutron multiplicity on the fragment's average spin is discussed. Results obtained using this approach are in better agreement with the experimental data as compared with the SCTSM.

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S. M. Mirfathi

Dynamical simulation of energy dissipation in asymmetric heavy-ion induced fission ofPb200,Fr213
Mirfathi
¹
,
Pahlavani
²

2008
Phys. Rev. C
43
0
12
0
View full text Add to dashboard Cite

Dynamics of neutron-induced fission ofU235using four-dimensional Langevin equations

Dynamical simulation of neutron-induced fission of uranium isotopes using four-dimensional Langevin equations

Dynamical Simulation of Emission Angle Dependence of Fragments Spin in Heavy Ion Fusion–fission Reactions

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S. M. Mirfathi

Dynamical simulation of energy dissipation in asymmetric heavy-ion induced fission ofPb200,Fr213Mirfathi1, Pahlavani2 2008Phys. Rev. C430120View full textAdd to dashboardCite

Dynamics of neutron-induced fission ofU235using four-dimensional Langevin equations

Dynamical simulation of neutron-induced fission of uranium isotopes using four-dimensional Langevin equations

Dynamical Simulation of Emission Angle Dependence of Fragments Spin in Heavy Ion Fusion–fission Reactions

Contact Info

Product

Resources

About

Dynamical simulation of energy dissipation in asymmetric heavy-ion induced fission ofPb200,Fr213
Mirfathi
¹
,
Pahlavani
²

2008
Phys. Rev. C
43
0
12
0
View full text Add to dashboard Cite