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NSR database version of April 29, 2024.

Search: Author = N.Phuc

Found 17 matches.

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2024LI18      Phys.Rev. C 109, 034312 (2024)

B.D.Linh, A.Corsi, A.Gillibert, A.Obertelli, P.Doornenbal, C.Barbieri, T.Duguet, M.Gomez-Ramos, J.D.Holt, B.S.Hu, T.Miyagi, A.M.Moro, P.Navratil, K.Ogata, S.Peru, N.T.T.Phuc, N.Shimizu, V.Soma, Y.Utsuno, N.L.Achouri, H.Baba, F.Browne, D.Calvet, F.Chateau, S.Chen, N.Chiga, M.L.Cortes, A.Delbart, J.-M.Gheller, A.Giganon, C.Hilaire, T.Isobe, T.Kobayashi, Y.Kubota, V.Lapoux, H.N.Liu, T.Motobayashi, I.Murray, H.Otsu, V.Panin, N.Paul, W.Rodriguez, H.Sakurai, M.Sasano, D.Steppenbeck, L.Stuhl, Y.L.Sun, Y.Togano, T.Uesaka, K.Wimmer, K.Yoneda, O.Aktas, T.Aumann, L.X.Chung, F.Flavigny, S.Franchoo, I.Gasparic, R.B.Gerst, J.Gibelin, K.I.Hahn, N.T.Khai, D.Kim, T.Koiwai, Y.Kondo, P.Koseoglou, J.Lee, C.Lehr, T.Lokotko, M.MacCormick, K.Moschner, T.Nakamura, S.Y.Park, D.Rossi, E.Sahin, D.Sohler, P.-A.Soderstrom, S.Takeuchi, H.Tornqvist, V.Vaquero, V.Wagner, S.T.Wang, V.Werner, X.Xu, Y.Yamada, D.Yan, Z.Yang, M.Yasuda, L.Zanetti

Onset of collectivity for argon isotopes close to N=32

doi: 10.1103/PhysRevC.109.034312
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2022CH05      Nucl.Phys. A1018, 122373 (2022)

L.H.Chien, N.T.T.Phuc

On the Bohr-Sommerfeld quantization condition and assault frequency in a semiclassical model for α decay

RADIOACTIVITY ^104,106Te, ^210,212Po, ¹⁴⁴Nd, ¹⁴⁶Sm, ¹⁴⁸Gd, ¹⁵²Er, ¹⁵⁶Hf, ¹⁵⁸W, ²⁰⁸Po, ^214,216,218Po, ^{210,212,214,216,218,220,222}Rn, ^214,216,218Ra, ^218,220Th, ²¹⁸U, ^222,224U, ²³⁰Pu, ^{238,240,242,244}Pu, ^{240,242,244,246,248}Cm, ²⁴⁰Cf, ^248,250,252Cf, ^256,258Rf, ²⁶⁰Sg, ²⁶⁶Hs, ²⁷⁰Hs, ²⁷⁰Ds(α); calculated preformation factors, T_1/2. Comparison with available data.

doi: 10.1016/j.nuclphysa.2021.122373
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2021AN01      Nucl.Phys. A1006, 122078 (2021)

N.L.Anh, N.H.Phuc, D.T.Khoa, L.H.Chien, N.T.T.Phuc

Folding model approach to the elastic p+^{12, 13}C scattering at low energies and radiative capture ^{12, 13}C(p, γ) reactions

NUCLEAR REACTIONS ^12,13C(p, γ), (p, p), E<5 MeV; calculated σ; deduced optical model potential, S-factors in the folding model, using a realistic density dependent nucleon-nucleon interaction.

doi: 10.1016/j.nuclphysa.2020.122078
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2021LI58      Phys.Rev. C 104, 044331 (2021)

B.D.Linh, A.Corsi, A.Gillibert, A.Obertelli, P.Doornenbal, C.Barbieri, S.Chen, L.X.Chung, T.Duguet, M.Gomez-Ramos, J.D.Holt, A.Moro, P.Navratil, K.Ogata, N.T.T.Phuc, N.Shimizu, V.Soma, Y.Utsuno, N.L.Achouri, H.Baba, F.Browne, D.Calvet, F.Chateau, N.Chiga, M.L.Cortes, A.Delbart, J.-M.Gheller, A.Giganon, C.Hilaire, T.Isobe, T.Kobayashi, Y.Kubota, V.Lapoux, H.N.Liu, T.Motobayashi, I.Murray, H.Otsu, V.Panin, N.Paul, W.Rodriguez, H.Sakurai, M.Sasano, D.Steppenbeck, L.Stuhl, Y.L.Sun, Y.Togano, T.Uesaka, K.Wimmer, K.Yoneda, O.Aktas, T.Aumann, F.Flavigny, S.Franchoo, I.Gasparic, R.-B.Gerst, J.Gibelin, K.I.Hahn, N.T.Khai, D.Kim, T.Koiwai, Y.Kondo, P.Koseoglou, J.Lee, C.Lehr, T.Lokotko, M.MacCormick, K.Moschner, T.Nakamura, S.Y.Park, D.Rossi, E.Sahin, D.Sohler, P.-A.Soderstrom, S.Takeuchi, N.D.Ton, H.Tornqvist, V.Vaquero, V.Wagner, H.Wang, V.Werner, X.Xu, Y.Yamada, D.Yan, Z.Yang, M.Yasuda, L.Zanetti

Investigation of the ground-state spin inversion in the neutron-rich ^{47, 49}Cl isotopes

NUCLEAR REACTIONS ¹H(⁵⁰Ar, 2p)⁴⁹Cl, (⁵⁰Ar, 2n2p)⁴⁷Cl; ¹H(⁵²K, n3p)⁴⁹Cl; ¹H(⁴⁸Cl, np)⁴⁷Cl, [secondary ion beams from ⁹Be(⁷⁰Zn, X), E=345 MeV/nucleon primary reaction at RIBF-RIKEN facility, followed by separation of ions by BigRIPS separator using Bπ-ΔE-TOF measurement and MINOS hydrogen target system]; measured reaction products, A/Q versus Z plot, scattered ions of ⁴⁷Cl and ⁴⁹Cl using the SAMURAI spectrometer and identified by A/Q and Z, Eγ, Iγ, γγ-coin using DALI2+ array of 226 NaI(Tl) detectors. ^47,49Cl; deduced levels, J and π for ⁴⁹Cl, parallel and transverse momentum distributions and L-transfers for ⁴⁹Cl, inclusive cross sections. Comparison of experimental level structure with shell-model calculations using SDPF-MU interactions, and IMSRG calculation. Comparison of momentum distributions with distorted-wave impulse approximation (DWIA), and transfer to continuum (TC) methods. Comparison of inclusive cross sections with LISE++ theoretical calculations. ⁴⁹Cl; calculated levels, J, π, T_1/2 of levels, B(E2), B(M1) using SDFP-MU shell-model. ^45,47,49Cl; calculated levels, J, π, spectroscopic factors using shell-model and ab initio approaches. ^41,43,45,47Cl; spin inversion issue not settled. Comparison of experimental and theoretical (from CGF) energy difference between the first 1/2+ and 3/2+ states in ^{35,36,37,38,39,40,41,43,45,47,49,51,53}Cl, ^{37,38,39,40,41,43,45,47,49,51,53,55}K.

doi: 10.1103/PhysRevC.104.044331
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2021PH01      Eur.Phys.J. A 57, 7 (2021)

N.H.Phuc, Dao T.Khoa, N.T.T.Phuc

Elastic α transfer in the ¹⁶O+¹²C scattering and its impact on the nuclear rainbow

NUCLEAR REACTIONS ¹²C(¹⁶O, ¹⁶O), E=100-200 MeV; analyzed available data; deduced σ, S-matrix elements in the two-channel CRC analysis.

doi: 10.1140/epja/s10050-020-00325-3
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2021PH02      Eur.Phys.J. A 57, 75 (2021)

N.H.Phuc, D.T.Khoa, N.T.T.Phuc, D.C.Cuong

Suppression of the nuclear rainbow in the inelastic nucleus-nucleus scattering

NUCLEAR REACTIONS ¹²C(¹²C, ¹²C'), E=240 MeV; ¹²C(¹⁶O, ¹⁶O'), E=200, 260 MeV; analyzed available data; calculated σ(θ), σ.

doi: 10.1140/epja/s10050-021-00397-9
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2021PH04      Phys.Lett. B 819, 136466 (2021)

N.T.T.Phuc, M.Lyu, Y.Chiba, K.Ogata

Manifestation of the divergence between antisymmetrized-molecular-dynamics and container pictures of ⁹Be via ⁹Be(p, pn)⁸Be knockout reaction

NUCLEAR REACTIONS ⁹Be(p, np), E=317 MeV; analyzed available data; deduced σ(θ), divergence between the antisymmetrized molecular dynamics and the container pictures in the theoretical descriptions of the ⁹Be nucleus and proposed to probe the corresponding spatial extensions of the nuclear π-orbit.

doi: 10.1016/j.physletb.2021.136466
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2021PH06      Int.J.Mod.Phys. E30, 2150079 (2021)

N.H.Phuc, N.T.T.Phuc, D.C.Cuong

Study of nonlocality effects in direct capture reactions with Lagrange-mesh R-matrix method

NUCLEAR REACTIONS ¹³C, ¹⁶O(p, γ), E(cm)<2.5 MeV; calculated S-factors. Comparison with available data.

doi: 10.1142/S0218301321500798
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2020CU03      Phys.Rev. C 102, 024622 (2020)

D.C.Cuong, P.Descouvemont, D.T.Khoa, N.H.Phuc

Coupled-reaction-channel study of the ¹²C(α, ⁸Be) reaction and the ⁸Be + ⁸Be optical potential

NUCLEAR REACTIONS ⁸Be(⁸Be, ⁸Be), E(cm)=41.3 MeV; ⁸Be(α, α), E(cm)=43.3 MeV; ⁸Be(α, α), E=65 MeV; calculated differential σ(θ) using three- and four-body continuum-discretized coupled-channel (CDCC) methods, with realistic α + α interaction, and explicit accounting of the breakup effect; deduced local equivalent optical potential parameters. ¹²C(α, ⁸Be)⁸Be, E=65 MeV; calculated differential σ(θ) using the coupled-reaction channel (CRC) calculation with optical potentials from the CDCC calculations, and α spectroscopic factors from the complex scaling method (CSM) cluster model calculation; deduced cluster structure of ¹²C. Comparison with experimental data for elastic ¹²+α scattering.

doi: 10.1103/PhysRevC.102.024622
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2020LO13      J.Phys.(London) G47, 035106 (2020)

D.T.Loan, D.T.Khoa, N.H.Phuc

Rearrangement term in the folding model of the nucleon optical potential

NUCLEAR REACTIONS ^40,48Ca, ⁹⁰Zr, ²⁰⁸Pb(n, n), E<40 MeV; calculated σ(θ), σ. Comparison with available data.

doi: 10.1088/1361-6471/ab5f54
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2019PH03      Phys.Rev. C 100, 054615 (2019)

N.T.T.Phuc, R.S.Mackintosh, N.H.Phuc, D.T.Khoa

Elastic transfer and parity dependence of the nucleus-nucleus optical potential

NUCLEAR REACTIONS ¹²C(¹⁶O, ¹⁶O), (¹⁶O, X), E=132, 300 MeV; calculated σ(θ, E) for ground-state channels of ¹⁶O and ¹²C using coupled reaction channel (CRC) approach with two- and ten-channel model space calculated parity-dependent core exchange potential (CEP) from S-matrix using inversion method; deduced strong contribution by the complex Majorana term in the total optical potential (OP).

doi: 10.1103/PhysRevC.100.054615
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2019PH04      Phys.Rev. C 100, 064604 (2019)

N.T.T.Phuc, K.Yoshida, K.Ogata

Toward a reliable description of (p, pN) reactions in the distorted-wave impulse approximation

NUCLEAR REACTIONS ¹H(¹³O, 2p), (¹⁴O, 2p), (¹⁵O, 2p), (¹⁶O, 2p), (¹⁷O, 2p), (¹⁸O, 2p), (²¹O, 2p), (²²O, 2p), (²³O, 2p), (¹¹C, 2p), (¹²C, 2p), (²¹N, 2p), (¹⁰C, np), (¹¹C, np), (¹²C, np), (²²O, np), (²³O, np), (²¹N, np), E=310-451 MeV; calculated σ and the reduction factors using distorted-wave impulse approximation (DWIA). Comparison with experimental cross sections from R³B-LAND experiment at GSI, and at RIKEN, and with other theoretical approaches; evaluated theoretical uncertainties.

doi: 10.1103/PhysRevC.100.064604
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2018CH57      Phys.Rev. C 98, 064604 (2018)

L.H.Chien, D.T.Khoa, D.C.Cuong, N.H.Phuc

Consistent mean-field description of the ¹²C + ¹²C optical potential at low energies and the astrophysical S factor

NUCLEAR REACTIONS ¹²C(¹²C, ¹²C), E=16, 18, 20, 35, 45, 74.2, 78.8, 83.3, 102.1, 117.1 MeV; analyzed differential σ(θ, E) experimental data, fusion σ(E); deduced optical model parameters, astrophysical S factor and reaction rate for T=0.8-2.0 GK using optical, double-folding (DFM) with CDM3Y3 density dependent nucleon-nucleon (NN) interaction, and barrier penetration models.

doi: 10.1103/PhysRevC.98.064604
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2018PH02      Phys.Rev. C 98, 024613 (2018)

N.T.T.Phuc, N.H.Phuc, D.T.Khoa

Direct and indirect α transfer in elastic ¹⁶O + ¹²C scattering

NUCLEAR REACTIONS ¹²C(¹⁶O, ¹⁶O), (¹⁶O, X), E=100, 159.9, 124, 132, 300 MeV; calculated σ(θ) for ground state channels of ¹⁶O and ¹²C, direct and indirect (multistep) transitions using form factors from double-folding model with CDM3Y3 interaction, with α spectroscopic factors (Sα) taken from large-scale shell model. Systematic optical model and coupled reaction channel (CRC) calculation including up to ten channels of excited and elastic transferred states. Comparison with experimental data. Discussed large-angle contributions associated with different transfer routes.

doi: 10.1103/PhysRevC.98.024613
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2016KH09      Phys.Rev. C 94, 034612 (2016)

D.T.Khoa, N.H.Phuc, D.T.Loan, B.M.Loc

Nuclear mean field and double-folding model of the nucleus-nucleus optical potential

NUCLEAR REACTIONS ¹²C(¹²C, ¹²C), E=139.5, 158.8, 240, 288.6, 360, 1016 MeV; ¹²C(¹⁶O, ¹⁶O), E=132, 170, 200, 230, 260, 281, 330, 608, 1503 MeV; analyzed σ(θ, E) data using realistic density dependent CDM3Yn versions of the M3Y interaction in an extended Hartree-Fock (HF) calculation of nuclear matter (NM), and double-folding model of the nucleus-nucleus optical potential.

doi: 10.1103/PhysRevC.94.034612
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2015NH01      Phys.Rev. C 92, 014605 (2015)

T.V.Nhan Hao, B.M.Loc, N.H.Phuc

Low-energy nucleon-nucleus scattering within the energy density functional approach

NUCLEAR REACTIONS ¹⁶O, ²⁰⁸Pb(n, n), E=7.0, 10.0, 14.5, 17.0, 20.0, 22.0, 24.0, 30.4, 40.0, 45.0, 50.0 MeV; calculated non-local optical potential; analyzed experimental data for σ(θ) using particle-vibration coupling (PVC) method with the Skyrme nucleon-nucleon (NN) effective interaction, and DWBA98 computer code.

NUCLEAR STRUCTURE ²⁰⁸Pb; calculated low lying levels, J, π, B(E2) using HF-RPA with SLy5 interaction. Comparison with experimental values.

doi: 10.1103/PhysRevC.92.014605
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2003DI10      Nucl.Phys. A722, 439c (2003)

P.N.Dinh, N.T.Dung, B.D.Hieu, N.Phuc, P.T.Phuong, P.Darriulat, D.Q.Thieu, Vo Van Thuan

Cosmic ray research in Hanoi: The Auger experiment and measurements made at home

doi: 10.1016/S0375-9474(03)01404-0
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Note: The following list of authors and aliases matches the search parameter N.Phuc: , N.H.PHUC, N.T.PHUC