Parity equilibration in nuclear level densities of 159–166Dy

2020 ◽  
Vol 35 (38) ◽  
pp. 2050315
Author(s):  
R. Razavi ◽  
O. Nouri ◽  
A. Rahmatinejad ◽  
S. Mohammadi
Keyword(s):  
Excitation Energy ◽  
Energy Dependence ◽  
Pair Breaking ◽  
Microscopic Approach ◽  
Nuclear Level ◽  
Pairing Effect ◽  
Level Densities ◽  
Energy Dependent

Excitation-energy dependent parity ratios in the level densities of [Formula: see text] isotopes are calculated within a microscopic approach. Introducing a parity equilibration parameter, energy dependence of the transition from where a single parity dominates to a parity equilibrated state is compared among [Formula: see text] isotopes and its relation to the pairing effect is investigated. A correlation between the pair-breaking and the equilibration of parity distributions is observed for the considered isotopes.

Determination of Nuclear Level Densities at an Excitation Energy of 20 MeV

1965 ◽  
Vol 138 (6B) ◽  
pp. B1372-B1377 ◽  
Author(s):  
H. K. Vonach ◽  
J. R. Huizenga
Keyword(s):  
Excitation Energy ◽  
Nuclear Level ◽  
Level Densities

Persistence of Odd-Even Effect on Nuclear Level Densities at High Excitation Energy

1970 ◽  
Vol 1 (2) ◽  
pp. 594-601 ◽  
Author(s):  
A. A. Katsanos ◽  
R. W. Shaw ◽  
R. Vandenbosch ◽  
D. Chamberlin
Keyword(s):  
Excitation Energy ◽  
High Excitation Energy ◽  
High Excitation ◽  
Nuclear Level ◽  
Level Densities

The effect of shell closure on the thermodynamic properties of 207Pb and 89Y

2016 ◽  
Vol 25 (11) ◽  
pp. 1650098 ◽  
Author(s):  
V. Dehghani ◽  
Gh. Forozani ◽  
Kh. Benam
Keyword(s):  
Experimental Data ◽  
Thermodynamic Properties ◽  
Excitation Energy ◽  
Low Temperatures ◽  
Shell Closure ◽  
Nuclear Level ◽  
Bcs Model ◽  
Level Densities ◽  
Entropy Contribution

Nuclear level densities of [Formula: see text]Pb and [Formula: see text]Y are calculated using the Lipkin–Nogami (LN) method and Bradeen–Cooper–Schrieffer (BCS) model. It is revealed that the calculated nuclear level densities are highly matched with the experimental data of Oslo group. The excitation energy and entropy are calculated for mentioned nuclei. In the case of two studied nuclei the characteristic of being magic for the number of neutrons or protons causes the decrease of the excitation energy and entropy contribution of magic system at low temperatures.

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