A microscopic optical potential for 3He

1975 ◽  
Vol 241 (2) ◽  
pp. 229-236 ◽  
Author(s):  
Bikash Sinha ◽  
Feroze Duggan ◽  
Richard J. Griffiths
Keyword(s):  
Optical Potential ◽  
Microscopic Optical Potential

Microscopic optical potential for He6

2017 ◽  
Vol 95 (3) ◽  
Author(s):  
Hairui Guo ◽  
Haiying Liang ◽  
Yongli Xu ◽  
Yinlu Han ◽  
Qingbiao Shen ◽  
...  
Keyword(s):  
Optical Potential ◽  
Microscopic Optical Potential

scholarly journals Microscopic optical potential from chiral nuclear forces

2013 ◽  
Vol 88 (2) ◽  
Author(s):  
J. W. Holt ◽  
N. Kaiser ◽  
G. A. Miller ◽  
W. Weise
Keyword(s):  
Optical Potential ◽  
Nuclear Forces ◽  
Microscopic Optical Potential

The proton microscopic optical potential based on Skyrme interaction

2018 ◽  
Vol 27 (03) ◽  
pp. 1850023
Author(s):  
Yongli Xu ◽  
Yinlu Han ◽  
Qingbiao Shen
Keyword(s):  
Elastic Scattering ◽  
Cross Sections ◽  
Optical Potential ◽  
Local Density ◽  
Mass Range ◽  
Reaction Cross ◽  
Light Nuclei ◽  
Skyrme Interaction ◽  
The Green Function ◽  
Microscopic Optical Potential

The proton microscopic optical potential (MOP) based on Skyrme interaction has been achieved by the Green function method in the nuclear matter, and given by the local density approximation (LDA) for finite nuclei. The reaction cross-sections, elastic scattering angular distributions, analyzing powers, and spin-rotation functions are predicted by the obtained proton MOP with Skyrme interaction SkC in the mass range of target nuclei 24[Formula: see text][Formula: see text][Formula: see text]A[Formula: see text][Formula: see text][Formula: see text]209 with incident proton energy below 100[Formula: see text]MeV. These observables are further predicted for some light nuclei and actinide nuclei below 100[Formula: see text]MeV. The prediction is compared with existing experimental data. It is revealed that the obtained proton MOP based on Skyrme interaction SkC can satisfactorily describe the proton–nucleus elastic scattering.

A Method for the Calculations of the Nucleon-Nucleus Microscopic Optical Potential

1983 ◽  
Vol 2 (4) ◽  
pp. 1233-1254 ◽  
Author(s):  
Shen Qing-biao ◽  
Tian Ye ◽  
Zhang Jing-shang ◽  
Zhuo Yi-zhong
Keyword(s):  
Optical Potential ◽  
Microscopic Optical Potential

Analisis of inelastic scattering of π-mesons from nuclei within the microscopic optical potential

2014 ◽  
Vol 78 (5) ◽  
pp. 421-426 ◽  
Author(s):  
V. K. Lukyanov ◽  
E. V. Zemlyanaya ◽  
K. V. Lukyanov ◽  
Ali El Lithi ◽  
Ibrahim Abdulmagead
Keyword(s):  
Inelastic Scattering ◽  
Optical Potential ◽  
Microscopic Optical Potential

Complex microscopic optical potential between two nuclei based on Dirac-Brueckner theory for nuclear matter

1988 ◽  
Vol 490 (3) ◽  
pp. 715-732 ◽  
Author(s):  
N. Ohtsuka ◽  
M. Shabshiry ◽  
R. Linden ◽  
H. Müther ◽  
Amand Faessler
Keyword(s):  
Nuclear Matter ◽  
Optical Potential ◽  
Microscopic Optical Potential ◽  
Brueckner Theory

MICROSCOPIC OPTICAL POTENTIAL FROM ARGONNE INTER-NUCLEON POTENTIALS

2011 ◽  
Vol 20 (11) ◽  
pp. 2317-2327 ◽  
Author(s):  
DIPTI PACHOURI ◽  
MANJARI SHARMA ◽  
SYED RAFI ◽  
W. HAIDER
Keyword(s):  
Binding Energy ◽  
Nuclear Matter ◽  
Optical Potential ◽  
Hard Core ◽  
Soft Core ◽  
Scattering Data ◽  
Test Case ◽  
Hartree Fock ◽  
Reaction Matrix ◽  
Microscopic Optical Potential

In the present work we describe our results concerning the calculation of equation of state of symmetric zero temperature nuclear matter and the microscopic optical potential using the soft-core Argonne inter-nucleon potentials in first order Brueckner–Hartree–Fock (BHF) theory. The nuclear matter saturates at a density 0.228 nucleon/fm 3 with 17.52 MeV binding energy per nucleon for Argonne av-14 and at 0.228 nucleon/fm 3 with 17.01 MeV binding energy per nucleon for Argonne av-18. As a test case we present an analysis of 65 and 200 MeV protons scattering from 208 Pb . The Argonne av-14 has been used for the first time to calculate nucleon optical potential in BHF and analyze the nucleon scattering data. We also compare our reaction matrix results with those using the old hard-core Hamada–Johnston and the soft-core Urbana uv-14 and Argonne av-18 inter-nucleon potentials. Our results indicate that the microscopic potential obtained using av-14 gives marginally better agreement with the experimental data than the other three Hamiltonians used in the present work.

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