Cluster decay half-lives of trans-lead nuclei within the Coulomb and proximity potential model

In this work, we have made an attempt to study the cluster-decay half-lives and alpha-decay half-lives of the superheavy nuclei [Formula: see text]Og by considering the temperature-dependent (TD) and also temperature-independent (TID) proximity potential model. The evaluated half-lives were compared with that of the experiments. To predict the decay modes, we have compared the cluster-decay half-lives and alpha-decay half-lives with that of spontaneous fission half-lives. This work also predicts the decay chains of the superheavy nuclei [Formula: see text]Og and finds an importance in the synthesis of further isotopes of superheavy element Oganesson.

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Probable cluster decays from 270–318118 superheavy nuclei

International Journal of Modern Physics E ◽

10.1142/s0218301314500591 ◽

2014 ◽

Vol 23 (10) ◽

pp. 1450059 ◽

Cited By ~ 8

Author(s):

K. P. Santhosh ◽

B. Priyanka

Keyword(s):

Half Life ◽

Potential Model ◽

Scaling Law ◽

Alpha Decay ◽

Neutron Number ◽

Cluster Decay ◽

Superheavy Nuclei ◽

Proximity Potential ◽

Universal Formula ◽

Good Agreement

The cluster decay process in 270–318118 superheavy nuclei has been studied extensively within the Coulomb and proximity potential model (CPPM), thereby investigating the probable cluster decays from the various isotopes of Z = 118. On comparing the predicted decay half-lives with the values evaluated using the Universal formula for cluster decay (UNIV) of Poenaru et al., the Universal Decay Law (UDL) of Qi et al., and the Scaling Law of Horoi et al., it was seen that, our values matches well with these theoretical values. A comparison of the predicted alpha decay half-life of the experimentally synthesized superheavy isotope 294118 with its corresponding experimental value shows that, our theoretical value is in good agreement with the experimental value. The plots for log 10(T1/2) against the neutron number of the daughter in the corresponding decay reveals the behavior of the cluster half-lives with the neutron number of the daughter nuclei and for most of the decays, the half-life was found to be the minimum for the decay leading to a daughter with N = 184. Most of the predicted half-lives are well within the present experimental upper limit (1030 s) and lower limit (10-6 s) for measurements and hence these predictions may be of great use for further experimental investigation on cluster decay in the superheavy region.

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Theoretical cluster decay predictions for the nuclei 245−260Md with different nuclear potentials

International Journal of Modern Physics E ◽

10.1142/s0218301320500950 ◽

2020 ◽

pp. 2050095

Author(s):

A. M. Izadpanah ◽

S. S. Hosseini ◽

V. Zanganeh

Keyword(s):

Experimental Data ◽

Potential Model ◽

Liquid Drop ◽

Alpha Decay ◽

Cluster Decay ◽

Liquid Drop Model ◽

Proximity Potential ◽

Cluster Radioactivity ◽

Universal Formula ◽

Good Agreement

We have studied systematically the alpha decay and cluster radioactivity half-life of heavy [Formula: see text]Mendelevium ([Formula: see text]) isotopes. The alpha decays from Md isotopes have been studied within the framework of Coulomb and proximity potential model using 14 different versions of nuclear potentials. Also, we have studied the half-lives of alpha decay of Md nuclei within the nuclear potentials generalized liquid drop model (GLDM) and also within GLDM with modified different nuclear potentials, namely proximity potential 2010, 1977, 1988, 2000 and 2002. Moreover, the half-lives of the [Formula: see text]-decay and cluster radioactivity calculated using the Universal formula for cluster decay (UNIV) of Poenaru et al., the Universal decay law (UDL) of Qi et al. and the Unified formula of half-lives for both the [Formula: see text]-decay and cluster radioactivity (UFADCR) of Ni et al. and found to be in good agreement. Our results have been compared with experimental data and demonstrate the acceptability of the approach. Among the different proximity potentials, GLDM with proximity 1977 version (GLDM[Formula: see text][Formula: see text][Formula: see text]P77) ([Formula: see text]) provides the best description for alpha decay studies with low deviation.

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A Systematic Study on the Existence of 7-9B, 16-19Ne, 8-11C, 23-30P and 26-32S Nuclei via Cluster Decay in the Super Heavy Region

Journal of Nuclear Physics Material Sciences Radiation and Applications ◽

10.15415/jnp.2019.71001 ◽

2019 ◽

Vol 7 (1) ◽

pp. 1-12

Author(s):

K. P. Anjali ◽

K. Prathapan ◽

R. K. Biju ◽

K. P. Santhosh

Keyword(s):

Half Life ◽

Potential Model ◽

Neutron Number ◽

Exotic Nuclei ◽

Cluster Decay ◽

Shell Closure ◽

Proximity Potential ◽

Deformed Nuclei ◽

C 23 ◽

Spherical Nuclei

Based on the Coulomb and Proximity Potential Model, we have studied the decay probabilities of various exotic nuclei from even-even nuclei in the super heavy region. The half-lives and barrier penetrability for the decay of exotic nuclei such as 7-9B, 16-19 Ne, 8-11 C, 23-30 P and 26-32 S from the isotopes 274-332116,274-334 118 and 288-334120 are determined by considering them as spherical as well as deformed nuclei. The effect of ground state quadrupole (β2), Octupole (β3) and hexadecapole (β4) deformation of parent, daughter and cluster nuclei on half- lives and barrier penetrability were studied. Calculations have done for the spherical nuclei and deformed nuclei in order to present the effects of the deformations on half-lives. It is found that height and shape of the barrier reduces by the inclusion of deformation and hence half-life for the emission of different clusters decreases and barrierpenetrability increases. Changes in the half-lives with and without the inclusion of deformation effects are compared in the graph of half -life and barrier penetrability against neutron number of parents. It is evident from the computed half lives that many of the exotic nuclei emissions are probable. Moreover shell structure effects on the half-lives of decay are evident from these plots. Peak in the plot of halflife and dip in the plot of barrier penetrability against neutron number of parent show shell closure at or near to N=184, N=200 and N=212.

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ALPHA-DECAY STUDIES ON 130-153Eu NUCLEI

International Journal of Modern Physics E ◽

10.1142/s021830131350081x ◽

2013 ◽

Vol 22 (11) ◽

pp. 1350081 ◽

Cited By ~ 14

Author(s):

K. P. SANTHOSH ◽

B. PRIYANKA

Keyword(s):

Experimental Data ◽

Potential Model ◽

Alpha Decay ◽

Shell Closure ◽

Proximity Potential ◽

Deformed Nuclei ◽

Neutron Shell ◽

Good Agreement ◽

Neutron Shell Closure

The alpha-decay half-lives of the 24 isotopes of Eu (Z = 63) nuclei in the region 130≤A≤153, have been studied systematically within the Coulomb and proximity potential model (CPPM). We have modified the assault frequency and re-determined the half-lives and they show a better agreement with the experimental value. We have also done calculations on the half-lives within the recently proposed Coulomb and proximity potential model for deformed nuclei (CPPMDN). The computed half-lives are compared with the experimental data and they are in good agreement. Using our model, we could also demonstrate the influence of the neutron shell closure at N = 82, in both parent and daughter nuclei, on the alpha-decay half-lives.

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Two-proton radioactivity within Coulomb and proximity potential model

Chinese Physics C ◽

10.1088/1674-1137/ac45ef ◽

2021 ◽

Author(s):

De-Xing Zhu ◽

Hong-Ming Liu ◽

Yang-Yang Xu ◽

You-Tian Zou ◽

Xi-Jun Wu ◽

...

Keyword(s):

Potential Model ◽

Liquid Drop ◽

Theoretical Models ◽

Parent Nucleus ◽

Drip Line ◽

Liquid Drop Model ◽

Empirical Formulas ◽

Proximity Potential ◽

Proton Radioactivity ◽

Good Agreement

Abstract In the present work, considering the preformation probability of the emitted two protons in the parent nucleus, we extend the Coulomb and proximity potential model (CPPM) to systematically study two-proton (2p) radioactivity half-lives of the nuclei close to proton drip line, while the proximity potential is chosen as Prox.81 proposed by Blocki et al. in 1981. Furthermore, we apply this model to predict the half-lives of possible 2p radioactive candidates whose 2p radioactivity is energetically allowed or observed but not yet quantified in the evaluated nuclear properties table NUBASE2016. The predicted results are in good agreement with those from other theoretical models and empirical formulas, namely the effective liquid drop model (ELDM), generalized liquid drop model (GLDM), Gamow-like model, Sreeja formula and Liu formula.

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Calculation of α-decay and cluster half-lives for 197–226Fr using temperature-dependent proximity potential model

Nuclear Physics A ◽

10.1016/j.nuclphysa.2020.121714 ◽

2020 ◽

Vol 997 ◽

pp. 121714 ◽

Cited By ~ 1

Author(s):

V. Zanganah ◽

Dashty T. Akrawy ◽

H. Hassanabadi ◽

S.S. Hosseini ◽

Shagun Thakur

Keyword(s):

Potential Model ◽

Temperature Dependent ◽

Proximity Potential ◽

Α Decay

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Alpha decay half-lives for heavy and super-heavy isotopes

International Journal of Modern Physics E ◽

10.1142/s0218301317500240 ◽

2017 ◽

Vol 26 (05) ◽

pp. 1750024

Author(s):

S. S. Hosseini ◽

H. Hassanabadi ◽

S. Zarrinkamar

Keyword(s):

Experimental Data ◽

Kinetic Energy ◽

Half Life ◽

Potential Model ◽

Alpha Decay ◽

Decay Energy ◽

Heavy Nuclei ◽

Proximity Potential ◽

Empirical Estimates ◽

Super Heavy Nuclei

We considered the systematics of Alpha-decay (AD) half-life (HL) of super-heavy nuclei (SHN) versus the decay energy and the total [Formula: see text]-kinetic energy. We have considered a potential model with Yukawa proximity potential and thereby calculated the HLs. Our results compared with experimental data and the empirical estimates. Also, we obtained [Formula: see text]-preformation factors from the ratio between theoretical and experimental results for a few super heavy nuclei. The results indicate the acceptability of the approach.

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Predictions on the alpha decay chains of superheavy nuclei with Z = 121 within the range 290 ≤ A ≤ 339

International Journal of Modern Physics E ◽

10.1142/s0218301316500798 ◽

2016 ◽

Vol 25 (10) ◽

pp. 1650079 ◽

Cited By ~ 9

Author(s):

K. P. Santhosh ◽

C. Nithya

Keyword(s):

Spontaneous Fission ◽

Potential Model ◽

Analytical Formula ◽

Superheavy Element ◽

Alpha Decay ◽

Mass Range ◽

Universal Curve ◽

Proximity Potential ◽

Deformed Nuclei ◽

First Time

A systematic study on the alpha decay half-lives of various isotopes of superheavy element (SHE) [Formula: see text] within the range [Formula: see text] is presented for the first time using Coulomb and proximity potential model for deformed nuclei (CPPMDN). The calculated [Formula: see text] decay half-lives of the isotopes within our formalism match well with the values computed using Viola–Seaborg systematic, Universal curve of Poenaru et al., and the analytical formula of Royer. In our study by comparing the [Formula: see text] decay half-lives with the spontaneous fission half-lives, we have predicted [Formula: see text] chain from [Formula: see text]121, [Formula: see text] chain from [Formula: see text]121 and [Formula: see text] chain from [Formula: see text]121. Clearly our study shows that the isotopes of SHE [Formula: see text] within the mass range [Formula: see text] will survive fission and can be synthesized and detected in the laboratory via alpha decay. We hope that our predictions will provide a new guide to future experiments.

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Estimation of the alpha decay of Platinum isotopes using different versions of theoretical formula

International Journal of Modern Physics E ◽

10.1142/s0218301317500690 ◽

2017 ◽

Vol 26 (10) ◽

pp. 1750069 ◽

Cited By ~ 1

Author(s):

S. S. Hosseini ◽

H. Hassanabadi ◽

H. Sobhani

Keyword(s):

Empirical Formula ◽

Potential Model ◽

Scaling Law ◽

Alpha Decay ◽

Theoretical Formula ◽

Proximity Potential ◽

Modified Formula ◽

Semi Empirical

The alpha decay half-lives of even–even and even–odd Platinum (Pt) nuclei have been studied within the Coulomb and proximity potential model (CPPM). The present study is restricted to even–even nuclei with [Formula: see text]–198. The results are compared with other calculations such as the Semi-empirical formula (SemFIS) from Poenaru et al. based on fission theory of alpha decay, the Viola–Seaborg (VS), Royer (R) and Brown formulae. Also, the alpha decay half-lives have been calculated using the Scaling law of Brown (SLB), the Universal Decay Law (UDL) of Qi et al., the Scaling Law of Horoi et al. (SLH), and Akrawy–Dorin formula (ADF) of Akrawy and Poenaru, which are the Royer modified formula for alpha decay half-live by adding asymmetry term.

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