Publisher’s Note: Cluster decay of hot56Ni⋆formed in the32

Abstract: The decay of56 N i * , formed in 32 S + 24 M g reaction at the incident energies Ecm=51.6 and 60.5 MeV, is calculated as a cluster decay process within the Preformed Cluster-decay Model (PCM) of Gupta et al. re-formulated for hot compound systems. Interesting enough, the cluster decay process is shown to contain the complete structure of both the measured fragment cross sections and total kinetic energies (TKEs). The observed deformed shapes of the exit channel fragments are simulated by introducing the neck-l… Show more

“…Moreover, in general, all the IMFs in the decay of 32 S * and 31 P * are favoured at the higher -values, which is true for the LPs at the lower -values or vice-versa. The trend for the LPs as well as IMFs observed here is in line with that for the light mass compound nuclei [3,4]. Fig.…”

“…The DCM [3][4][5], based on the quantum mechanical fragmentation theory (QMFT), is worked out in terms of the collective coordinates of mass asymmetry η = A 1 −A 2 A 1 +A 2 and relative separation R, which allows to define the decay cross-section, as…”

“…The decay of very light mass compound nuclei 32 S * and 31 P * formed in 20 Ne+ 12 C and 19 F+ 12 C reactions, respectively, are studied here using the Dynamical Clusterdecay Model (DCM) of Gupta and collaborators [3][4][5]. In a e-mail: birbikram.singh@gmail.com terms of the barrier picture, a cluster-decay process in this model is in fact a fission process with structure effects of the CN also included via the preformation probabilities P 0 of the fragments.…”

“…The processes of fusion-fission (ff) and a deep inelastic (DI) orbiting mechanism are in competition for these systems [1,2]. In the ff mechanism, a completely equilibrated compound nucleus (CN) is formed, which decays into various exit channels, independent of entrance channel but depending on their masses [3][4][5], whereas in a deep inelastic (DI) orbiting mechanism a long lived dinuclear molecular system is formed with strong memory of entrance channel which subsequently decays into targetprojectile like fragments and contribute σ orb to the overall decay cross section. For a very light compound system, standard rotating liquid drop model (RLDM) predicts strong inhibition of ff mechanism, as compared to DI scattering/ orbiting process [6].…”

Dynamical decay of³²S* and³¹P* formed in²⁰Ne+¹²C and¹⁹F+¹²C reactions, respectively, atE*_CN= 60 MeV

“…Moreover, in general, all the IMFs in the decay of 32 S * and 31 P * are favoured at the higher -values, which is true for the LPs at the lower -values or vice-versa. The trend for the LPs as well as IMFs observed here is in line with that for the light mass compound nuclei [3,4]. Fig.…”

“…The DCM [3][4][5], based on the quantum mechanical fragmentation theory (QMFT), is worked out in terms of the collective coordinates of mass asymmetry η = A 1 −A 2 A 1 +A 2 and relative separation R, which allows to define the decay cross-section, as…”

“…The decay of very light mass compound nuclei 32 S * and 31 P * formed in 20 Ne+ 12 C and 19 F+ 12 C reactions, respectively, are studied here using the Dynamical Clusterdecay Model (DCM) of Gupta and collaborators [3][4][5]. In a e-mail: birbikram.singh@gmail.com terms of the barrier picture, a cluster-decay process in this model is in fact a fission process with structure effects of the CN also included via the preformation probabilities P 0 of the fragments.…”

“…The processes of fusion-fission (ff) and a deep inelastic (DI) orbiting mechanism are in competition for these systems [1,2]. In the ff mechanism, a completely equilibrated compound nucleus (CN) is formed, which decays into various exit channels, independent of entrance channel but depending on their masses [3][4][5], whereas in a deep inelastic (DI) orbiting mechanism a long lived dinuclear molecular system is formed with strong memory of entrance channel which subsequently decays into targetprojectile like fragments and contribute σ orb to the overall decay cross section. For a very light compound system, standard rotating liquid drop model (RLDM) predicts strong inhibition of ff mechanism, as compared to DI scattering/ orbiting process [6].…”

Dynamical decay of³²S* and³¹P* formed in²⁰Ne+¹²C and¹⁹F+¹²C reactions, respectively, atE*_CN= 60 MeV

“…So, it is of further interest to study the effect of long range interaction potential (centrifugal part) in the decay processes (evaporation residue and a e-mail: msharma@thapar.edu fission) of CN. In the present work, centrifugal potential is investigated within two limits of momentum of inertia such as (i) Sticking limit I S [9] (ii) Non Sticking limit I NS [6]. There are various hypothesis other than these two limits such as rolling and sliding conditions.…”

Role of rotational energy component in the dynamics of ¹⁶O+¹⁹⁸Pt reaction

Role of different Skyrme forces and surface corrections in exotic cluster decay