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NSR database version of April 27, 2024.

Search: Author = D.P.Min

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2011MI15      J.Korean Phys.Soc. 59, 749s (2011)

D.-P.Min

Sharing Benefits of Knowledge for the Future of Humanity

doi: 10.3938/jkps.59.749
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2008MI02      Phys.Rev. C 77, 014901 (2008)

D.-P.Min, N.Kochelev

Glueball-induced partonic energy loss in quark-gluon plasma

doi: 10.1103/PhysRevC.77.014901
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2007KI14      Nucl.Phys. A792, 249 (2007)

Y.Kim, K.Kubodera, D.-P.Min, F.Myhrer, M.Rho

The effect of kaon condensation on quark-antiquark condensate in dense matter

doi: 10.1016/j.nuclphysa.2007.05.005
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2007SO17      Phys.Lett. B 656, 174 (2007)

Y.-H.Song, R.Lazauskas, T.-S.Park, D.-P.Min

Effective field theory approach for the M1 properties of A = 2 and 3 nuclei

NUCLEAR STRUCTURE ^2,3H, ³He; calculated μ, binding energies with a variational Monte Carlo method.

doi: 10.1016/j.physletb.2007.09.038
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2006HO06      Phys.Rev. C 73, 054901 (2006)

B.Hong, C.-R.Ji, D.-P.Min

Light-front wavefunction dependence of quark recombination

NUCLEAR REACTIONS ¹⁹⁷Au(¹⁹⁷Au, X), E(cm)=200 GeV/nucleon; calculated particles invariant transverse momentum spectra, yield ratios, nuclear modification factors. Quark recombination model.

doi: 10.1103/PhysRevC.73.054901
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2003LE13      Nucl.Phys. A723, 427 (2003)

H.-J.Lee, B.-Y.Park, D.-P.Min, M.Rho, V.Vento

A unified approach to high density: pion fluctuations in skyrmion matter

doi: 10.1016/S0375-9474(03)01452-0
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2003PA19      Phys.Rev. C 67, 055206 (2003)

T.-S.Park, L.E.Marcucci, R.Schiavilla, M.Viviani, A.Kievsky, S.Rosati, K.Kubodera, D.-P.Min, M.Rho

Parameter-free effective field theory calculation for the solar proton-fusion and hep processes

NUCLEAR REACTIONS ¹H, ³He(p, e⁺ν), E=low; calculated threshold astrophysical S-factors, dependence on cutoff parameters. Effective field theory.

doi: 10.1103/PhysRevC.67.055206
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2002AN02      Phys.Rev. C65, 015502 (2002)

S.-I.Ando, H.W.Fearing, D.-P.Min

Polarized Photons in Radiative Muon Capture

NUCLEAR REACTIONS ¹H(μ^-, νγ), E not given; calculated Eγ, γ-ray polarization, sensitivity to pseudoscalar coupling constant.

doi: 10.1103/PhysRevC.65.015502
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2002PA37      Nucl.Phys. A707, 381 (2002)

B.-Y.Park, D.-P.Min, M.Rho, V.Vento

Atiyah-Manton Approach to Skyrmion Matter

doi: 10.1016/S0375-9474(02)00963-6
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2002PA39      J. Korean Phys.Soc. 41, 195 (2002)

T.S.Park, H.Jung, D.P.Min

In-Medium Effective Pion Mass from Heavy-Baryon Chiral Perturbation Theory

2001AN18      Phys.Lett. 509B, 253 (2001)

S.-I.Ando, T.-S.Park, D.-P.Min

Threshold pp → ppπ⁰ Up to One-Loop Accuracy

NUCLEAR REACTIONS ¹H(p, pπ⁰), E ≈ threshold; calculated σ; deduced one-loop contributions. Hybrid heavy baryon chiral perturbation theory, comparisons with data.

doi: 10.1016/S0370-2693(01)00433-6
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2001CH63      Phys.Lett. 516B, 321 (2001)

H.H.Chang, T.-S.Park, D.-P.Min

Asymmetry in (n(pol)) + p → d + γ

NUCLEAR REACTIONS ¹H(polarized n, γ), E=threshold; calculated γ-ray asymmetry. Heavy-baryon chiral perturbation theory, comparison with previous results.

doi: 10.1016/S0370-2693(01)00917-0
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2001PA17      Nucl.Phys. A684, 101c (2001)

T.-S.Park, K.Kubodera, D.-P.Min, M.Rho

Effective Field Theory for Nuclei: Confronting fundamental questions in astrophysics

doi: 10.1016/S0375-9474(01)00494-8
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2000HY01      Phys.Lett. 473B, 6 (2000)

C.H.Hyun, T.-S.Park, D.-P.Min

A Higher-Order Calculation of np Scattering in Cut-Off Effective Field Theory

NUCLEAR REACTIONS ¹H(n, X), E(cm)=70-280 MeV; calculated phase shifts; deduced two-pion exchange contributions, related features.

doi: 10.1016/S0370-2693(99)01487-2
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2000PA03      Phys.Lett. 472B, 232 (2000)

T.-S.Park, K.Kubodera, D.-P.Min, M.Rho

Effective Field Theory Approach to n(pol) + p(pol) → d + γ at Threshold

NUCLEAR REACTIONS ¹H(polarized n, γ), E not given; calculated polarization observables. Effective field theory, polarized target.

doi: 10.1016/S0370-2693(99)01438-0
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1999LE39      Nucl.Phys. A657, 75 (1999)

H.-J.Lee, D.-P.Min, B.-Y.Park, M.Rho, V.Vento

The Proton Spin in the Chiral Bag Model: Casimir contributions and Cheshire Cat principle

NUCLEAR STRUCTURE ¹H; calculated flavor singlet axial charge. Chiral bag model, Cheshire Cat principle.

doi: 10.1016/S0375-9474(99)00320-6
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1999PA05      Nucl.Phys. A646, 83 (1999)

T.-S.Park, K.Kubodera, D.-P.Min, M.Rho

The Power of Effective Field Theories in Nuclei: The deuteron, NN scattering and electroweak processes

NUCLEAR REACTIONS ¹H(p, e⁺), (n, γ), E=low; calculated phase shifts, matrix elements; deduced pion role, cut-off parameter. Effective field theory.

doi: 10.1016/S0375-9474(98)00614-9
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1998AN04      Phys.Lett. 417B, 177 (1998)

S.-I.Ando, D.-P.Min

Radiative Muon Capture in Heavy Baryon Chiral Perturbation Theory

NUCLEAR REACTIONS ¹H(μ^-, γ), E not given; calculated photon spectra; deduced one-loop order corrections. Comparison with data. Heavy baryon chiral perturbation theory.

doi: 10.1016/S0370-2693(97)01367-1
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1998PA21      Phys.Rev. C58, R637 (1998)

T.-S.Park, K.Kubodera, D.-P.Min, M.Rho

Effective Field Theory for Low-Energy Two-Nucleon Systems

NUCLEAR REACTIONS ¹H(n, γ), E(cm) < 220 MeV; calculated phase shift, M1 transition amplitude; deduced little cutoff dependence. Effective field theory.

doi: 10.1103/PhysRevC.58.R637
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1998SO10      Phys.Lett. 424B, 226 (1998)

C.Song, D.-P.Min, M.Rho

Thermodynamic Properties of Effective Chiral Lagrangians with Brown-Rho Scaling

doi: 10.1016/S0370-2693(98)00232-9
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1997HO23      Phys.Lett. 414B, 229 (1997)

S.-T.Hong, B.-Y.Park, D.-P.Min

Strange Form Factors of Baryons

NUCLEAR STRUCTURE ¹H; calculated strange magnetic form factor. General chiral SU(3) group structure.

doi: 10.1016/S0370-2693(97)01159-3
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1997PA27      Phys.Lett. 409B, 26 (1997)

T.-S.Park, H.Jung, D.-P.Min

In-Medium Effective Axial-Vector Coupling Constant

doi: 10.1016/S0370-2693(97)00880-0
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1997SO20      Phys.Rev. C56, 2244 (1997)

C.Song, G.E.Brown, D.-P.Min, M.Rho

Fluctuations in ' Brown-Rho Scaled ' Chiral Lagrangians

doi: 10.1103/PhysRevC.56.2244
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1996LE10      Nucl.Phys. A602, 334 (1996)

C.-H.Lee, D.-P.Min, M.Rho

The Role of Λ(1405) in Kaon-Proton Interactions

NUCLEAR REACTIONS ¹H(K^-, X), E ≈ threshold; calculated leading order contributions. ¹H(K⁺, K⁺), E at ≤ 300 MeV/c; calculated S-wave phase shifts; deduced Λ(1405) role. Heavy-baryon chiral perturbation theory.

doi: 10.1016/0375-9474(96)00086-3
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1996PA04      Nucl.Phys. A596, 515 (1996)

T.-S.Park, D.-P.Min, M.Rho

Chiral Lagrangian Approach to Exchange Vector Currents in Nuclei

NUCLEAR REACTIONS ¹H(n, γ), E=thermal; calculated σ. Chiral Lagrangian approach, exchange vector currents.

doi: 10.1016/0375-9474(95)00406-8
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1995LE09      Nucl.Phys. A585, 401 (1995)

C.-H.Lee, G.E.Brown, D.-P.Min, M.Rho

An Effective Chiral Lagrangian Approach to Kaon-Nuclear Interactions. Kaonic Atom and Kaon Condensation

doi: 10.1016/0375-9474(94)00623-U
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1995PA38      Phys.Rev.Lett. 74, 4153 (1995)

T.-S.Park, D.-P.Min, M.Rho

Radiative Neutron-Proton Capture in Effective Chiral Lagrangians

NUCLEAR REACTIONS ¹H(n, γ), E=thermal; calculated total capture σ(E). Chiral perturbation theory.

doi: 10.1103/PhysRevLett.74.4153
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1994LE13      Phys.Lett. 326B, 14 (1994)

C.-H.Lee, H.Jung, D.-P.Min, M.Rho

Kaon-Nucleon Scattering from Chiral Lagrangians

NUCLEAR REACTIONS ¹H, ¹n(K^-, K^-), E=high; calculated s-wave amplitude vs E. Scattering from chiral Lagrangians.

doi: 10.1016/0370-2693(94)91185-1
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1991MI16      Nucl.Phys. A530, 698 (1991)

D.P.Min, Y.Koh, Y.Oh, H.K.Lee

Vector Mesons and Magnetic Moments of Hyperons

NUCLEAR STRUCTURE ¹n, ¹H; calculated μ. SU(3) Skyrme model, bound state approach.

doi: 10.1016/0375-9474(91)90775-2
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1991OH04      Nucl.Phys. A534, 493 (1991)

Y.Oh, D.-P.Min, M.Rho, N.N.Scoccola

Massive-Quark Baryons as Skyrmions Magnetic Moments

NUCLEAR STRUCTURE ¹n, ¹H; calculated μ. Skyrmion description.

doi: 10.1016/0375-9474(91)90458-I
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1990PA23      Nucl.Phys. A517, 561 (1990)

B.-Y.Park, D.P.Min, M.Rho

Strange Component in the Magnetic Moment of the Proton

NUCLEAR STRUCTURE ¹H; calculated strange component in μ. Chiral hyperbag, SU(3) collective coordinate quantization.

doi: 10.1016/0375-9474(90)90218-B
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1978MI15      Nucl.Sci.Eng. 68, 270 (1978)

D.P.Min, M.Martinot

Statistical Model Analysis of Spin Influence on the Deexcitation of Fission Fragments

RADIOACTIVITY, Fission ²⁵²Cf (SF); calculated average neutron-multiplicity, average γ-energy as function of A. Angular momentum dependent statistical model.

doi: 10.13182/NSE78-A27305
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