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Probing entrance channel effects in fusion-fission dynamics through neutron multiplicity measurement of 208Rn

Neeraj Kumar, S. Verma, Shabnam Mohsina, Jhilam Sadhukhan, K. Rojeeta Devi, A. Banerjee, N. Saneesh, Mohit Kumar, Ruchi Mahajan, Meenu Thakur, Gurpreet Kaur, Anjali Rani, Neelam Neelam, Abhishek Yadav, Kavita, R. Kumar, Unnati, S. Mandal, Suresh Kumar, B. R. Behera, K. S. Golda, A. Jhingan, P. Sugathan

2021Physics Letters B22 citationsDOIOpen Access PDF

Abstract

The pre- and post-scission neutron multiplicities are measured for the fission of 208Rn, populated with the reactions 30Si+178Hf and 48Ti+160Gd in the excitation energy range of 54.5 - 80.8 MeV. We found significant differences in the pre-scission neutron multiplicities of these two systems. Also, both the reactions exhibit an enhancement in the pre-scission multiplicity with respect to the existing data for the 16O+194Pt reaction populating 210Rn. The measured multiplicities are compared with the theoretical predictions obtained from the Langevin dynamical model for fission. Dynamical simulations are also performed to estimate the capture cross-sections. Contribution of the neutrons, emitted during the fusion process, is shown to be crucial in determining the neutron multiplicities for the present systems. Moreover, in case of the 48Ti+160Gd reaction, rapid quasi-fission dynamics prevents neutron emission from the thermalized target-projectile composite. The present measurement helps us to understand the relative importance of fusion and quasi-fission processes and their timescales depending on the entrance channel mass asymmetry.

Topics & Concepts

PhysicsFissionNuclear physicsMultiplicity (mathematics)NeutronNeutron emissionFusionProjectileAsymmetryNuclear fusionAtomic physicsParticle physicsMathematicsLinguisticsMathematical analysisPhilosophyQuantum mechanicsNuclear physics research studiesNuclear reactor physics and engineeringNuclear Physics and Applications
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