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NSR database version of April 29, 2024.

Search: Author = N.N.Anh

Found 7 matches.

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2024PH01      Phys.Lett. B 849, 138421 (2024)

L.T.Phuc, T.V.Dong, N.D.Dang, B.M.Hue, L.Th.Q.Huong, B.Dey, N.N.Anh, N.Q.Hung

Imprint of pairing correlation in (n, γ) and Maxwellian-averaged cross sections of an odd-odd ¹⁶⁶Ho nucleus

NUCLEAR REACTIONS ¹⁶⁵Ho(n, γ), E<10 MeV; calculated σ, the nuclear level density (NLD) and radiative strength function (RSF) by employing the exact thermal pairing (EP) solution in conjunction with both the temperature-dependent independent-particle model (EP+IPM) for the NLD and the phonon damping model (EP+PDM) for the RSF. Comparison with available data.

doi: 10.1016/j.physletb.2023.138421
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2023SE11      J.Phys.(London) G50, 075104 (2023)

E.Senapati, S.Mondal, S.Bhattacharya, d.Pandit, N.Dinh Dang, N.N.Anh, L.T.Quynh Huong, R.Santra, N.Quang Hung, B.Dey

Pairing phase transition in an odd-even hot ⁶⁹Zn nucleus

NUCLEAR STRUCTURE ⁶⁹Zn; analyzed available data; deduced pairing phase transition in an odd–even hot-rotating nucleus using the reported nuclear level density (NLD) data, which were experimentally extracted from the γ-gated particle spectra.

doi: 10.1088/1361-6471/acd2f1
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2022XU08      J.Phys.(London) G49, 105102 (2022)

T.D.Xuan, N.Q.Hung, L.T.Quynh Huong, V.D.Cong, N.N.Anh

Investigation of empirical heat capacity in hot-rotating A ∼ 200 nuclei

NUCLEAR STRUCTURE ¹⁸⁴Re, ²⁰⁰Tl, ²¹¹Po, ²¹²At; calculated the empirical heat capacities by combining the angular-momentum dependent back-shifted Fermi gas (BSFG) model of nuclear level density (NLD) with the experimental NLD data extracted from the neutron-evaporation spectra.

doi: 10.1088/1361-6471/ac8568
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2021CO17      Eur.Phys.J. A 57, 304 (2021)

V.D.Cong, T.D.Xuan, N.X.Hai, P.D.Khang, L.H.Khiem, N.Q.Hung, N.N.Anh

Normalizing the enhanced generalized superfluid model of nuclear level density

NUCLEAR STRUCTURE ^25,27Mg, ²⁹Si, ³³P, ³⁴S, ³⁶Cl, ⁴⁰K, ^41,43,45Ca, ^47,49,51Ti, ^51,53,55Cr, ^57,59Fe, ⁶⁰Co, ^61,63,65Ni, ⁶⁶Cu, ⁶⁸Zn, ⁷⁰Ga, ^71,73,75Ge, ⁷⁶As, ^77,79Se, ⁸⁰Br, ⁸¹Kr, ⁸³Se, ⁸⁵Kr, ^86,88Rb, ⁸⁹Sr, ⁹¹Zr, ^93,94,95Zr, ^96,97Mo, ⁹⁹Mo, ^102,104Ru, ¹⁰⁴Rh, ^105,107Pd, ^108,109Pd, ¹¹⁰Ag, ¹¹¹Cd, ^113,114,115Cd, ¹¹⁶In, ^{117,119,121,123}Sn, ^124,125Sn, ¹²⁶Te, ¹²⁸I, ^{129,130,131,132}Xe, ¹³³Ba, ¹³⁵Xe, ^135,137Ba, ¹³⁸Ba, ¹³⁹La, ¹⁴¹Ce, ¹⁴²Pr, ^143,144,145Nd, ^146,148Nd, ¹⁵¹Nd, ^148,149Sm, ^152,153Sm, ¹⁵³Gd, ¹⁵⁵Sm, ^155,156Gd, ¹⁵⁹Gd, ¹⁵⁷Dy, ¹⁶⁰Tb, ^161,163Dy, ¹⁶⁴Dy, ^{165,167,169,171}Er, ¹⁷⁰Tm, ^171,173,175Yb, ^176,177Lu, ^178,180Hf, ^181,182Ta, ^183,185,187W, ¹⁸⁸Re, ^189,191,193Os, ^{193,195,197,199}Pt, ^200,202Hg, ^205,207,209Pb, ²²⁷Ra, ²³⁰Th, ²³³Th, ²³⁴Pa, ^235,237U, ^238,239Np, ^240,242Pu, ²⁴³Pu, ^243,244,245Cm, ^247,249Cm, ²⁵⁰Cf; analyzed available data; deduced nuclear level density normalization parameters. Enhanced generalized superfluid (EGS)model.

doi: 10.1140/epja/s10050-021-00615-4
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2021UY01      Nucl.Phys. A1007, 122136 (2021)

N.K.Uyen, K.Y.Chae, N.N.Duy, S.M.Cha, M.S.Kwag, D.H.Kim, L.T.Phuc, N.Q.Hung, P.D.Khang, N.X.Hai, H.H.Thang, N.N.Anh

Level scheme of ¹⁶⁴Dy obtained from ¹⁶³Dy(n_th, 2γ) experiment

NUCLEAR REACTIONS ¹⁶³Dy(n, 2γ)¹⁶⁴Dy, E thermal; measured reaction products, Eγ, Iγ, γ-γ-coin.; deduced γ-ray energies and intensities, J, π, branching ratios. Comparison with ENSDF library.

doi: 10.1016/j.nuclphysa.2021.122136
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2020QU02      Phys.Lett. B 811, 135858 (2020)

N.Quang Hung, N.Dinh Dang, L.Tan Phuc, N.N.Anh, T.D.Xuan, T.V.Nhan Hao

A fully microscopic model of total level density in spherical nuclei

NUCLEAR STRUCTURE ⁹⁰Zr, ⁶⁰Ni; calculated nuclear level densities, neutron pairing gap using a fully microscopic model.

doi: 10.1016/j.physletb.2020.135858
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2020TA24      Phys.Rev. C 102, 061302 (2020)

L.Tan Phuc, N.Quang Hung, N.Dinh Dang, L.T.Quynh Huong, N.N.Anh, N.N.Duy, L.Ngoc Uyen, N.Nhu Le

Role of exact treatment of thermal pairing in radiative strength functions of ^161-163Dy nuclei

NUCLEAR STRUCTURE ^161,162,163Dy; calculated radiative strength functions (RSF) for E1 and E1+M1 excitations, and GDR widths using the phonon damping model (PDM) plus exact thermal pairing (EP), without adding any extra pygmy dipole resonance (PDR) strength function. Comparison with experimental data.

doi: 10.1103/PhysRevC.102.061302
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