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NSR database version of May 1, 2024.

Search: Author = K.C.Chung

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2001CH12      Eur.Phys.J. A 10, 27 (2001)

K.C.Chung, C.S.Wang, A.J.Santiago, J.W.Zhang

Effective Nucleon-Nucleon Interactions and Nuclear Matter Equation of State

doi: 10.1007/s100500170141
Citations: PlumX Metrics

2001CH53      Eur.Phys.J. A 11, 137 (2001)

K.C.Chung, C.S.Wang, A.J.Santiago, J.W.Zhang

Nuclear Matter Properties in Relativistic Mean-Field Model with σ-ω Coupling

doi: 10.1007/s100500170078
Citations: PlumX Metrics

2001CH83      Eur.Phys.J. A 12, 161 (2001)

K.C.Chung, C.S.Wang, A.J.Santiago, J.W.Zhang

Determination of Nonlinear σ-ω-ρ Model Parameters in the Relativistic Mean-Field Theory by Nuclear-Matter Properties

doi: 10.1007/s100500170024
Citations: PlumX Metrics

2000CH08      Phys.Rev. C61, 047303 (2000)

K.C.Chung, C.S.Wang, A.J.Santiago, J.W.Zhang

Nuclear Matter Equation of State Based on Effective Nucleon-Nucleon Interactions

doi: 10.1103/PhysRevC.61.047303
Citations: PlumX Metrics

2000CH52      Eur.Phys.J. A 9, 453 (2000)

K.C.Chung, C.S.Wang, A.J.Santiago, J.W.Zhang

Nuclear Matter Properties and Relativistic Mean-Field Theory

doi: 10.1007/s100500070003
Citations: PlumX Metrics

1999CH02      Phys.Rev. C59, 714 (1999)

K.C.Chung, C.S.Wang, A.J.Santiago

Nuclear Incompressibility Determined by Nuclear Mass and Monopole Resonance Energy

doi: 10.1103/PhysRevC.59.714
Citations: PlumX Metrics

1999CH40      Europhys.Lett. 47, 663 (1999)

K.C.Chung, C.S.Wang, A.J.Santiago

Nuclear Matter Properties from Nuclear Masses

doi: 10.1209/epl/i1999-00440-4
Citations: PlumX Metrics

1999WA18      Phys.Rev. C60, 034310 (1999)

C.S.Wang, K.C.Chung, A.J.Santiago

Systematics of Nuclear Central Densities

NUCLEAR STRUCTURE A=1-208; analyzed electron scattering, muonic atom data; deduced nuclear central densities, mass and asymmetry dependence.

doi: 10.1103/PhysRevC.60.034310
Citations: PlumX Metrics

1998CH07      Phys.Rev. C57, 847 (1998)

K.C.Chung, C.S.Wang, A.J.Santiago, G.Pech

Transverse and Forward Energy Distributions in Ultrarelativistic Heavy Collisions by an Absorption Model

NUCLEAR REACTIONS Ag, Cu(¹⁶O, X), E=60 GeV/nucleon; Pb(²⁰⁸Pb, X), E=158 GeV/nucleon; ¹⁹⁷Au(¹⁶O, X), E=60, 200 GeV/nucleon; S, Cu, Ag, ¹⁹⁷Au(³²S, X), E=200 GeV/nucleon; analyzed transverse, forward energy distributions; deduced parameters. Absorption model.

doi: 10.1103/PhysRevC.57.847
Citations: PlumX Metrics

1997SA27      Phys.Scr. 55, 152 (1997)

A.J.Santiago, K.C.Chung, C.S.Wang

Nuclear Fragmentation in Nucleus-Nucleus Reaction Within a Two-Lattices Percolation Picture

NUCLEAR REACTIONS ³⁶Ar, Cu, ¹²⁹Xe, ¹⁹⁷Au(¹⁹⁷Au, X), E not given; analyzed fragmentation data. Two-lattice percolation model.

doi: 10.1088/0031-8949/55/2/006
Citations: PlumX Metrics

1997WA15      Phys.Rev. C55, 2844 (1997)

C.S.Wang, K.C.Chung, A.J.Santiago

Thomas-Fermi Theory of the Breathing Mode and Nuclear Incompressibiility

NUCLEAR STRUCTURE ¹⁶O, ⁴⁰Ca, ⁵⁸Ni, ⁹⁰Zr, ¹¹²Sn, ¹⁴⁰Ce, ²⁰⁸Pb; calculated isoscalar giant monopole resonance energy; deduced contributions of Coulomb energy, nucleon density gradient to nuclear incompressibility. Thomas-Fermi theory, linear scaling.

doi: 10.1103/PhysRevC.55.2844
Citations: PlumX Metrics

1996SA21      Prog.Theor.Phys.(Kyoto) 95, 97 (1996)

A.J.Santiago, K.C.Chung

Percolation and Nucleation Approaches to Nuclear Fragmentation - Criticality in Very Small Systems -

NUCLEAR REACTIONS ⁴⁵Sc(⁴⁰Ar, X), E=65 MeV/nucleon; ¹²⁹Xe(¹⁹⁷Au, X), E not given; analyzed data; deduced nonuniqueness of criticality criterion. Percolation, nucleation models.

doi: 10.1143/PTP.95.97
Citations: PlumX Metrics

1993CH36      J.Phys.(London) G19, 1373 (1993)

K.C.Chung

Nuclear Fragmentation by Nucleation Approach

NUCLEAR REACTIONS ¹⁹⁷Au(Kr, X), (Xe, X), E not given; analyzed fragment charge distribution, target fragmentation. Nucleation model.

doi: 10.1088/0954-3899/19/9/016
Citations: PlumX Metrics

1993SA12      J.Phys.(London) G19, 349 (1993)

A.J.Santiago, K.C.Chung

Do Percolative Simulations of Nuclear Fragmentation Depend on the Lattice Structure ( Question )

NUCLEAR REACTIONS Kr, Xe(p, X), E not given; calculated fragment spectra for X=¹⁶O, ¹²C; deduced lattice structure role in percolative simulations.

doi: 10.1088/0954-3899/19/2/017
Citations: PlumX Metrics

1991CH48      J.Phys.(London) G17, 1851 (1991)

N.-C.Chao, K.C.Chung

Tetrahedral Percolation and Nuclear Fragmentation

NUCLEAR REACTIONS Xe, Kr(p, X), E > 80 GeV; calculated light, medium mass fragment yields. Percolation model, tetrahedral binding.

doi: 10.1088/0954-3899/17/12/007
Citations: PlumX Metrics

1974MC02      Phys.Rev. C9, 670 (1974)

M.T.McEllistrem, J.D.Brandenberger, K.Sinram, G.P.Glasgow, K.C.Chung

Discovery and Assignment of Excited 0⁺ Levels in Even-A Mo Isotopes

NUCLEAR REACTIONS ^92,94,96,100Mo(n, n'γ), (n, n'), E=1.4-3.5 MeV; measured σ(E;Eγ, En', θ(γ), θ(n')). ^92,94,96,100Mo deduced levels, J.

doi: 10.1103/PhysRevC.9.670
Citations: PlumX Metrics
Data from this article have been entered in the EXFOR database. For more information, access X4 dataset12672.

1970CH15      Phys.Rev. C2, 139 (1970)

K.C.Chung, A.Mittler, J.D.Brandenberger, M.T.McEllistrem

Ge(n, n'γ) Reactions and Low-Lying States of Ge Isotopes

NUCLEAR REACTIONS Ge(n, n'γ), E=1.75, 2.13, 2.55 MeV; measured σ(E;Eγ, θ(γ)). ^70,72,74,76Ge deduced levels, J, π, γ-branching, γ-mixing.

doi: 10.1103/PhysRevC.2.139
Citations: PlumX Metrics
Data from this article have been entered in the EXFOR database. For more information, access X4 dataset10045.

1969VE03      Phys.Rev. 179, 1090 (1969)

D.E.Velkley, K.C.Chung, A.Mittler, J.D.Brandenberger, M.T.McEllistrem

Levels of ⁶⁹Ga and ⁷¹Ga via the (n, n'γ) Reactions

NUCLEAR REACTIONS ⁶⁹Ga, ⁷¹Ga(n, n'γ), E=0.4-2.5 MeV; measured σ(E), σ(Eγ, θ(γ)). ⁶⁹Ga, ⁷¹Ga deduced levels, J, π. Ge(Li) detector.

doi: 10.1103/PhysRev.179.1090
Citations: PlumX Metrics
Data from this article have been entered in the EXFOR database. For more information, access X4 dataset11810.

1968CH15      Nucl.Phys. A115, 476(1968)

K.C.Chung, D.E.Velkley, J.D.Brandenberger, M.T.McEllistrem

²⁷Al(n, n'γ) Reactions and the 3002 keV Level

NUCLEAR REACTIONS ²⁷Al(n, n'γ), E = 3.5 MeV; measured σ(Eγ, θ), Eγ; deduced σ(En'). ²⁷Al level deduced J, γ-mixing.

doi: 10.1016/0375-9474(68)90021-3
Citations: PlumX Metrics
Data from this article have been entered in the EXFOR database. For more information, access X4 dataset11513.

1968CH45      Bull.Am.Phys.Soc. 13, 601 DE3 (1968)

K.C.Chung, A.Mittler, J.D.Brandenberger, M.T.McEllistrem

(n, n'γ) Angular distributions and (n, n) cross sections in Ge

NUCLEAR REACTIONS ^70,72,74,76Ge(n, n'), E=1.95, 2.50 MeV; measured reaction products, En, In, TOF; deduced inelastic σ, level energies. Comparison with Hauser-Feshbach calculations.