scholarly journals Role of exact pairing in the description of nuclear level density and radiative strength function

2018 ◽  
Vol 966 ◽  
pp. 012054
Author(s):  
N. Dinh Dang ◽  
N. Quang Hung ◽  
L.T. Quynh Huong
Keyword(s):  
Level Density ◽  
Strength Function ◽  
Nuclear Level Density ◽  
Nuclear Level ◽  
Radiative Strength Function

scholarly journals Nuclear level density andγ-ray strength function of43Sc

2012 ◽  
Vol 85 (6) ◽  
Author(s):  
A. Bürger ◽  
A. C. Larsen ◽  
S. Hilaire ◽  
M. Guttormsen ◽  
S. Harissopulos ◽  
...  
Keyword(s):  
Level Density ◽  
Strength Function ◽  
Nuclear Level Density ◽  
Nuclear Level

scholarly journals First results in the study of level scheme for ¹⁷²Yb based on gamma-gamma coincidence spectrometer

2016 ◽  
Vol 6 (4) ◽  
pp. 26-31
Author(s):  
Ngoc Anh Nguyen ◽  
Xuan Hai Nguyen ◽  
Dinh Khang Pham ◽  
Huu Thang Ho
Keyword(s):  
Level Scheme ◽  
Level Density ◽  
Strength Function ◽  
Nuclear Research ◽  
Nuclear Level Density ◽  
Nuclear Level ◽  
Nuclear Research Institute ◽  
Gamma Coincidence ◽  
First Results ◽  
Coincidence Spectrometer

Nuclear level scheme permits to determine nuclear level density, gamma strength function, and to evaluate nuclear models. In comparison to light nuclei, the structure of heavy nuclei is much more complicated because of their strong deformation. In order to study nuclear level scheme, gamma – gamma coincidence spectrometer with advantages of low Compton background and the ability of identifying correlated gamma transitionshas been often used. This paper presents the first results of an experimentalstudy of level scheme of 172Yb using gamma – gamma coincidence spectrometer at the Dalat Nuclear Research Institute.

scholarly journals Puzzle of collective enhancement in the nuclear level density

2021 ◽  
pp. 136173
Author(s):  
Deepak Pandit ◽  
Balaram Dey ◽  
Srijit Bhattacharya ◽  
T.K. Rana ◽  
Debasish Mondal ◽  
...  
Keyword(s):  
Level Density ◽  
Nuclear Level Density ◽  
Nuclear Level

scholarly journals Nuclear Level Density Parameters ofPb203-209andBi206-210Deformed Target Isotopes Used on Accelerator-Driven Systems in Collective Excitation Modes

2012 ◽  
Vol 2012 ◽  
pp. 1-9 ◽  
Author(s):  
Şeref Okuducu ◽  
Nisa N. Aktı ◽  
Sabahattin Akbaş ◽  
M. Orhan Kansu
Keyword(s):  
Collective Excitation ◽  
Level Density ◽  
Neutron Resonance ◽  
Nuclear Level Density ◽  
S Wave ◽  
Nuclear Level ◽  
Driven Systems ◽  
Resonance Data ◽  
Accelerator Driven Systems ◽  
Good Agreement

The nuclear level density parameters of some deformed isotopes of target nuclei (Pb, Bi) used on the accelerator-driven subcritical systems (ADSs) have been calculated taking into consideration different collective excitation modes of observed nuclear spectra near the neutron binding energy. The method used in the present work assumes equidistant spacing of the collective coupled state bands of the considered isotopes. The present calculated results for different collective excitation bands have been compared with the compiled values from the literature for s-wave neutron resonance data, and good agreement was found.

scholarly journals Influence of spin on fission fragments anisotropy

2005 ◽  
Vol 20 (1) ◽  
pp. 45-49
Author(s):  
Omid Ghodsi ◽  
Aziz Behkami ◽  
Farhad Rahimi
Keyword(s):  
Experimental Data ◽  
Level Density ◽  
Couple Channel ◽  
Spin Effect ◽  
Nuclear Level Density ◽  
Nuclear Level ◽  
Fission Fragments ◽  
Fragment Angular Distribution ◽  
Induced Fission ◽  
Channel Spin

An analysis of selected fission fragment angular distribution when at least one of the spins of the projectile or target is appreciable in induced fission was made by using the statistical scission model. The results of this model predicate that the spins of the projectile or target are affected on the nuclear level density of the compound nucleus. The experimental data was analyzed by means of the couple channel spin effect formalism. This formalism suggests that the projectile spin is more effective on angular anisotropies within the limits of energy near the fusion barrier.

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