NSR Query Results
Output year order : Descending NSR database version of April 27, 2024. Search: Author = K.Liu Found 43 matches. 2024AP01 Eur.Phys.J. C 84, 138 (2024) E.Aprile, K.Abe, S.Ahmed Maouloud, L.Althueser, B.Andrieu, E.Angelino, J.R.Angevaare, V.C.Antochi, D.Anton Martin, F.Arneodo, L.Baudis, A.L.Baxter, M.Bazyk, L.Bellagamba, R.Biondi, A.Bismark, E.J.Brookes, A.Brown, S.Bruenner, G.Bruno, R.Budnik, T.K.Bui, C.Cai, J.M.R.Cardoso, D.Cichon, A.P.Cimental Chavez, A.P.Colijn, J.Conrad, J.J.Cuenca-Garcia, J.P.Cussonneau, V.D'Andrea, M.P.Decowski, P.Di Gangi, S.Diglio, K.Eitel, A.Elykov, S.Farrell, A.D.Ferella, C.Ferrari, H.Fischer, M.Flierman, W.Fulgione, C.Fuselli, P.Gaemers, R.Gaior, A.Gallo Rosso, M.Galloway, F.Gao, R.Glade-Beucke, L.Grandi, J.Grigat, H.Guan, M.Guida, R.Hammann, A.Higuera, C.Hils, L.Hoetzsch, N.F.Hood, J.Howlett, M.Iacovacci, Y.Itow, J.Jakob, F.Joerg, A.Joy, M.Kara, P.Kavrigin, S.Kazama, M.Kobayashi, G.Koltman, A.Kopec, F.Kuger, H.Landsman, R.F.Lang, L.Levinson, I.Li, S.Li, S.Liang, S.Lindemann, M.Lindner, K.Liu, J.Loizeau, F.Lombardi, J.Long, J.A.M.Lopes, Y.Ma, C.Macolino, J.Mahlstedt, A.Mancuso, L.Manenti, F.Marignetti, T.Marrodan Undagoitia, K.Martens, J.Masbou, D.Masson, E.Masson, S.Mastroianni, M.Messina, K.Miuchi, A.Molinario, S.Moriyama, K.Mora, Y.Mosbacher, M.Murra, J.Muller, K.Ni, U.Oberlack, B.Paetsch, J.Palacio, Q.Pellegrini, R.Peres, C.Peters, J.Pienaar, M.Pierre, G.Plante, T.R.Pollmann, J.Qi, J.Qin, D.Ramirez Garcia, N.Sarcevic, J.Shi, R.Singh, L.Sanchez, J.M.F.dos Santos, I.Sarnoff, G.Sartorelli, J.Schreiner, D.Schulte, P.Schulte, H.Schulze Eissing, M.Schumann, L.Scotto Lavina, M.Selvi, F.Semeria, P.Shagin, S.Shi, E.Shockley, M.Silva, H.Simgen, A.Takeda, P.-L.Tan, A.Terliuk, D.Thers, F.Toschi, G.Trinchero, C.Tunnell, F.Tonnies, K.Valerius, G.Volta, C.Weinheimer, M.Weiss, D.Wenz, C.Wittweg, T.Wolf, V.H.S.Wu, Y.Xing, D.Xu, Z.Xu, M.Yamashita, L.Yang, J.Ye, L.Yuan, G.Zavattini, M.Zhong, T.Zhu, XENON collaboration Design and performance of the field cage for the XENONnT experiment
doi: 10.1140/epjc/s10052-023-12296-y
2024SU02 Phys.Rev. C 109, 014323 (2024) Probing spin and pseudospin symmetries in deformed nuclei by the Green's function method
doi: 10.1103/PhysRevC.109.014323
2023AP04 Phys.Rev. D 108, 072015 (2023) E.Aprile, K.Abe, S.Ahmed Maouloud, L.Althueser, B.Andrieu, E.Angelino, J.R.Angevaare, V.C.Antochi, D.Anton Martin, F.Arneodo, L.Baudis, A.L.Baxter, M.Bazyk, L.Bellagamba, R.Biondi, A.Bismark, E.J.Brookes, A.Brown, S.Bruenner, G.Bruno, R.Budnik, T.K.Bui, C.Cai, J.M.R.Cardoso, A.P.Cimental Chavez, A.P.Colijn, J.Conrad, J.J.Cuenca-Garcia, V.D'Andrea, M.P.Decowski, P.Di Gangi, S.Diglio, K.Eitel, A.Elykov, S.Farrell, A.D.Ferella, C.Ferrari, H.Fischer, M.Flierman, W.Fulgione, C.Fuselli, P.Gaemers, R.Gaior, A.Gallo Rosso, M.Galloway, F.Gao, R.Glade-Beucke, L.Grandi, J.Grigat, H.Guan, M.Guida, R.Hammann, A.Higuera, C.Hils, L.Hoetzsch, N.F.Hood, J.Howlett, M.Iacovacci, Y.Itow, J.Jakob, F.Joerg, A.Joy, M.Kara, P.Kavrigin, S.Kazama, M.Kobayashi, G.Koltman, A.Kopec, F.Kuger, H.Landsman, R.F.Lang, D.G.Layos Carlos, L.Levinson, I.Li, S.Li, S.Liang, S.Lindemann, M.Lindner, K.Liu, J.Loizeau, F.Lombardi, J.Long, J.A.M.Lopes, Y.Ma, C.Macolino, J.Mahlstedt, A.Mancuso, L.Manenti, F.Marignetti, T.Marrodan Undagoitia, K.Martens, J.Masbou, D.Masson, E.Masson, S.Mastroianni, M.Messina, K.Miuchi, A.Molinario, S.Moriyama, K.Moraa, Y.Mosbacher, M.Murra, J.Muller, K.Ni, U.Oberlack, B.Paetsch, J.Palacio, Q.Pellegrini, R.Peres, C.Peters, J.Pienaar, M.Pierre, G.Plante, T.R.Pollmann, J.Qi, J.Qin, D.Ramirez Garcia, J.Shi, R.Singh, L.Sanchez, J.M.F.dos Santos, I.Sarnoff, G.Sartorelli, J.Schreiner, D.Schulte, P.Schulte, H.Schulze Eissing, M.Schumann, L.Scotto Lavina, M.Selvi, F.Semeria, P.Shagin, S.Shi, E.Shockley, M.Silva, H.Simgen, A.Takeda, P.-L.Tan, A.Terliuk, D.Thers, F.Toschi, G.Trinchero, C.Tunnell, F.Tonnies, K.Valerius, G.Volta, C.Weinheimer, M.Weiss, D.Wenz, C.Wittweg, T.Wolf, V.H.S.Wu, Y.Xing, D.Xu, Z.Xu, M.Yamashita, L.Yang, J.Ye, L.Yuan, G.Zavattini, M.Zhong, T.Zhu Search for events in XENON1T associated with gravitational waves
doi: 10.1103/PhysRevD.108.072015
2022AP04 Phys.Rev.Lett. 129, 161805 (2022) E.Aprile, K.Abe, F.Agostini, S.Ahmed Maouloud, L.Althueser, B.Andrieu, E.Angelino, J.R.Angevaare, V.C.Antochi, D.Anton Martin, F.Arneodo, L.Baudis, A.L.Baxter, L.Bellagamba, R.Biondi, A.Bismark, A.Brown, S.Bruenner, G.Bruno, R.Budnik, T.K.Bui, C.Cai, C.Capelli, J.M.R.Cardoso, D.Cichon, M.Clark, A.P.Colijn, J.Conrad, J.J.Cuenca-Garcia, J.P.Cussonneau, V.D'Andrea, M.P.Decowski, P.Di Gangi, S.Di Pede, A.Di Giovanni, R.Di Stefano, S.Diglio, K.Eitel, A.Elykov, S.Farrell, A.D.Ferella, C.Ferrari, H.Fischer, W.Fulgione, P.Gaemers, R.Gaior, A.Gallo Rosso, M.Galloway, F.Gao, R.Gardner, R.Glade-Beucke, L.Grandi, J.Grigat, M.Guida, R.Hammann, A.Higuera, C.Hils, L.Hoetzsch, J.Howlett, M.Iacovacci, Y.Itow, J.Jakob, F.Joerg, A.Joy, N.Kato, M.Kara, P.Kavrigin, S.Kazama, M.Kobayashi, G.Koltman, A.Kopec, F.Kuger, H.Landsman, R.F.Lang, L.Levinson, I.Li, S.Li, S.Liang, S.Lindemann, M.Lindner, K.Liu, J.Loizeau, F.Lombardi, J.Long, J.A.M.Lopes, Y.Ma, C.Macolino, J.Mahlstedt, A.Mancuso, L.Manenti, F.Marignetti, T.Marrodan Undagoitia, K.Martens, J.Masbou, D.Masson, E.Masson, S.Mastroianni, M.Messina, K.Miuchi, K.Mizukoshi, A.Molinario, S.Moriyama, K.Mora, Y.Mosbacher, M.Murra, J.Muller, K.Ni, U.Oberlack, B.Paetsch, J.Palacio, P.Paschos, R.Peres, C.Peters, J.Pienaar, M.Pierre, V.Pizzella, G.Plante, J.Qi, J.Qin, D.Ramirez Garcia, S.Reichard, A.Rocchetti, N.Rupp, L.Sanchez, J.M.F.dos Santos, I.Sarnoff, G.Sartorelli, J.Schreiner, D.Schulte, P.Schulte, H.Schulze Eissing, M.Schumann, L.Scotto Lavina, M.Selvi, F.Semeria, P.Shagin, S.Shi, E.Shockley, M.Silva, H.Simgen, J.Stephen, A.Takeda, P.-L.Tan, A.Terliuk, D.Thers, F.Toschi, G.Trinchero, C.Tunnell, F.Tonnies, K.Valerius, G.Volta, Y.Wei, C.Weinheimer, M.Weiss, D.Wenz, C.Wittweg, T.Wolf, D.Xu, Z.Xu, M.Yamashita, L.Yang, J.Ye, L.Yuan, G.Zavattini, M.Zhong, T.Zhu Search for New Physics in Electronic Recoil Data from XENONnT RADIOACTIVITY 124Xe(2EC); measured decay products, X-rays; deduced T1/2. Comparison with available data. The XENONnT experiment, located at the INFN Laboratori Nazionali del Gran Sasso (LNGS) in Italy, was designed as a fast upgrade of XENON1T and inherits many of its systems such as cooling, gas storage, purification, and Kr removal.
doi: 10.1103/PhysRevLett.129.161805
2021DO09 Nature(London) 590, 561 (2021), Pub.Correction Nature(London) 604, E26 (2022) J.Dove, B.Kerns, R.E.McClellan, S.Miyasaka, D.H.Morton, K.Nagai, S.Prasad, F.Sanftl, M.B.C.Scott, A.S.Tadepalli, C.A.Aidala, J.Arrington, C.Ayuso, C.L.Barker, C.N.Brown, W.C.Chang, A.Chen, D.C.Christian, B.P.Dannowitz, M.Daugherity, M.Diefenthaler, L.El Fassi, D.F.Geesaman, R.Gilman, Y.Goto, L.Guo, R.Guo, T.J.Hague, R.J.Holt, D.Isenhower, E.R.Kinney, N.Kitts, A.Klein, D.W.Kleinjan, Y.Kudo, C.Leung, P.-J.Lin, K.Liu, M.X.Liu, W.Lorenzon, N.C.R.Makins, M.Mesquita de Medeiros, P.L.McGaughey, Y.Miyachi, I.Mooney, K.Nakahara, K.Nakano, S.Nara, J.-C.Peng, A.J.Puckett, B.J.Ramson, P.E.Reimer, J.G.Rubin, S.Sawada, T.Sawada, T.-A.Shibata, D.Su, M.Teo, B.G.Tice, R.S.Towell, S.Uemura, S.Watson, S.G.Wang, A.B.Wickes, J.Wu, Z.Xi, Z.Ye The asymmetry of antimatter in the proton NUCLEAR REACTIONS 1,2H(p, μ+), (p, μ-), E=120 GeV; measured reaction products. 1H; deduced antimatter asymmetry in the proton.
doi: 10.1038/s41586-021-03282-z
2019KR14 Eur.Phys.J. A 55, 196 (2019) A.S.Kronfeld, D.G.Richards, W.Detmold, R.Gupta, H.-W.Lin, K.-F.Liu, A.S.Meyer, R.Sufian, S.Syritsyn Lattice QCD and neutrino-nucleus scattering
doi: 10.1140/epja/i2019-12916-x
2017AS03 Eur.Phys.J. A 53, 71 (2017) E.-C.Aschenauer, I.Balitsky, L.Bland, S.J. Brodsky, M.Burkardt, V.Burkert, J.-P.Chen, A.Deshpande, M.Diehl, L.Gamberg, M.Grosse Perdekamp, J.Huang, C.Hyde, X.Ji, X.Jiang, Z.-B.Kang, V.Kubarovsky, J.Lajoie, K.-F.Liu, M.Liu, S.Liuti, W.Melnitchouk, P.Mulders, A.Prokudin, A.Tarasov, J.-W.Qiu, A.Radyushkin, D.Richards, E.Sichtermann, M.Stratmann, W.Vogelsang, F.Yuan Pre-Town Meeting on spin physics at an Electron-Ion Collider
doi: 10.1140/epja/i2017-12251-4
2016LI31 Eur.Phys.J. A 52, 160 (2016) The parton orbital angular momentum: Status and prospects
doi: 10.1140/epja/i2016-16160-8
2014LI36 Nucl.Phys. A928, 99 (2014) From nuclear structure to nucleon structure
doi: 10.1016/j.nuclphysa.2014.04.011
2013LI57 Phys.Rev. C 88, 068202 (2013) Finite-temperature nuclear matter properties within a relativistic σ-ω coupling model
doi: 10.1103/PhysRevC.88.068202
2012LI04 Phys.Rev. C 85, 014909 (2012) Charge-dependent azimuthal correlations in relativistic heavy-ion collisions and electromagnetic effects
doi: 10.1103/PhysRevC.85.014909
2009LI50 Nucl.Phys. A830, 633c (2009) A.Li, A.Alexandru, X.Meng, K.-F.Liu, and the chiQCD Collaboration Study of QCD critical point using canonical ensemble method
doi: 10.1016/j.nuclphysa.2009.10.113
2007HE13 Nucl.Instrum.Methods Phys.Res. B259, 629 (2007) M.He, S.Jiang, Y.Nagashima, Y.Yang, T.Takahashi, K.Liu, K.Sasa, K.Dong, S.Wu, T.Matsuhiro, Y.Tosaki, X.Ren, R.Seki, K.Sueki AMS measurement of 26Al cross section for the reaction 14N(16O, α)26Alg NUCLEAR REACTIONS 14N(16O, α), E(cm)=7-12 MeV; measured cross section using accelerator mass spectrometry.
doi: 10.1016/j.nimb.2007.01.304
2005HE24 Nucl.Instrum.Methods Phys.Res. B240, 612 (2005) M.He, S.Jiang, Y.Nagashima, Y.Yang, T.Takahashi, K.Liu, K.Sasa, K.Dong, S.Wu, T.Matsuhiro, H.Tosaki, X.Ren, R.Seki, K.Sueki Measurement of the cross-section of 14N(16O, α)26Al with AMS NUCLEAR REACTIONS 14N(16O, α), E(cm)=6.6, 7.9, 9.5 MeV; measured σ. Accelerator mass spectrometry.
doi: 10.1016/j.nimb.2005.04.132
2001LI09 J.Phys.(London) G27, 511 (2001) Strangeness Content in the Nucleon
doi: 10.1088/0954-3899/27/3/332
2001LI20 Nucl.Phys. A684, 247c (2001) Quantum Dynamical Resonance of the F + HD Reaction: A fresh look
doi: 10.1016/S0375-9474(01)00421-3
2000MA34 Nucl.Phys. B(Proc.Supp.) S83-84, 247 (2000) N.Mathur, S.J.Dong, K.F.Liu, N.C.Mukhopadhyay, and the Kentucky Field Theory Collaboration Proton Spin Content from Lattice QCD NUCLEAR STRUCTURE 1H; calculated quark angular momentum. Lattice QCD.
doi: 10.1016/S0920-5632(00)91637-2
1999WU07 Eur.Phys.J. A 6, 345 (1999) S.S.Wu, J.M.Zhu, K.Z.Liu, Y.J.Yao Relativistic Hartree-Fock Schemes and Effect of Self-Consistency
doi: 10.1007/s100500050352
1999ZH33 Phys.Rev. C60, 054614 (1999) Neutron Suppression in Polarized dd Fusion Reaction NUCLEAR REACTIONS 2H(polarized d, p), E=30, 50, 70, 90 keV; calculated σ(θ), analyzing powers; deduced polarization suppression ratio. 2H(d, p), (d, n), 3He(d, p), 3H(d, n), E=low; calculated reaction rates; deduced neutron suppression features in fusion reactors.
doi: 10.1103/PhysRevC.60.054614
1998ZH16 Chin.Phys.Lett. 15, 8 (1998) Q.Zhao, X.-Y.Lu, Z.-Y.Guo, Z.-M.Shi, J.-J.Wang, K.-X.Liu, B.Li, K.Li, J.-E.Chen, H.-L.Lu Measurement of the 27Al(n, 2n)26Al Cross Section using Accelerator Mass Spectrometry NUCLEAR REACTIONS 27Al(n, 2n), E=14.8-14.9 MeV; measured σ. Accelerator mass spectrometry.
doi: 10.1088/0256-307X/15/1/004
1996DO26 Phys.Rev. D54, 5496 (1996) πNσ Term, (s-bar)s in the Nucleon, and the Scalar Form Factor: A lattice study
doi: 10.1103/PhysRevD.54.5496
1995LI16 Phys.Rev.Lett. 74, 2172 (1995) K.-F.Liu, S.-J.Dong, T.Draper, W.Wilcox πNN and Pseudoscalar Form Factors from Lattice QCD NUCLEAR STRUCTURE 1H; calculated pseudoscalar form factor; deduced πNN form factor. Quenched lattice QCD calculations.
doi: 10.1103/PhysRevLett.74.2172
1994LI22 Phys.Rev.Lett. 72, 1790 (1994) Origin of Difference between (u-bar) and (d-bar) Partons in the Nucleon NUCLEAR STRUCTURE 1H; calculated isovector to isoscalar charge radius, ratio g(A) vs quark mass; deduced u-bar, d-bar parton difference origin. Euclidean path-integral formulation for hadronic tensor.
doi: 10.1103/PhysRevLett.72.1790
1991LI13 Phys.Rev. D43, 1515 (1991) Quark Spin Content of the Proton in the Skyrme Model NUCLEAR STRUCTURE 1n, 1H; calculated μ. Skyrme model.
doi: 10.1103/PhysRevD.43.1515
1991LI27 Nucl.Phys. A534, 1 (1991) K.-F.Liu, H.Luo, Z.Ma, Q.Shen, S.A.Moszkowski Skyrme-Landau Parameterization on Effective Interactions (I). Hartree-Fock Ground States NUCLEAR STRUCTURE 16O, 40,48Ca, 90Zr, 208Pb; calculated binding energy per nucleon, neutron, proton, charge radii. Skyrme-Landau effective interactions parametrization.
doi: 10.1016/0375-9474(91)90555-K
1991LI28 Nucl.Phys. A534, 25 (1991) Skyrme-Landau Parameterization of Effective Interactions (II). Self-Consistent Description of Giant Multipole Resonances NUCLEAR STRUCTURE 16O, 40,48Ca, 90Zr, 208Pb; calculated giant resonances, multipole transition strengths. Skyrme-Landau effective interactions parametrization.
doi: 10.1016/0375-9474(91)90556-L
1991LI29 Nucl.Phys. A534, 48 (1991) K.-F.Liu, H.-D.Luo, Z.Ma, M.Feng, Q.-B.Shen Sum Rules for Nuclear Excitations with the Skyrme-Landau Interaction NUCLEAR STRUCTURE 16O, 40,48Ca, 90Zr, 208Pb; calculated electric multipole, M1 excitation energy-weighted sum rules. Skyrme-Landau interactions.
doi: 10.1016/0375-9474(91)90557-M
1991LI30 Nucl.Phys. A534, 58 (1991) Skyrme-Landau Particle-Particle Interaction and Application to 18O and 18F NUCLEAR STRUCTURE 18O, 18F; calculated levels. Skyrme-Landau particle-particle interaction.
doi: 10.1016/0375-9474(91)90558-N
1988LI25 Phys.Lett. 213B, 531 (1988) Role of Nuclear Binding in the EMC Effect NUCLEAR STRUCTURE 56Fe, 12C, 40Ca, 27Al, 107Ag, 197Au; calculated structure function ratio; deduced quark confinement scales ratio.
doi: 10.1016/0370-2693(88)91305-6
1986ZH05 Phys.Rev.Lett. 57, 1410 (1986) Fusion Reactions of Polarized Deuterons NUCLEAR REACTIONS, ICPND 2H(polarized d, n), (d, n), E(cm)=20-150 MeV; calculated fusion σ(E), σ(θ) anisotropy. DWBA.
doi: 10.1103/PhysRevLett.57.1410
1983LI01 Phys.Rev. C27, 93 (1983) Charge Exchange Reactions and Solar Neutrino Detection in 81Br NUCLEAR REACTIONS 81Br(p, n), (3He, t), E not given; calculated Gamow-Teller matrix element; deduced 81Br suitability as solar neutrino detector. Charge exchange reaction.
doi: 10.1103/PhysRevC.27.93
1982MA25 Nucl.Phys. A382, 173 (1982) G.Mairle, G.J.Wagner, P.Grabmayr, K.T.Knopfle, Liu Ken Pao, H.Riedesel, K.Schindler, V.Bechtold, L.Friedrich, P.Ziegler Spin Determination of States with Stretched Configurations in 16N and 32P Via the (d(pol), α) Reaction at 52 Mev NUCLEAR REACTIONS 12C, 18O, 34S(polarized d, α), E=52 MeV; measured σ(θ), iT11(θ). 32P, 16N deduced levels, J, π. Enriched targets.
doi: 10.1016/0375-9474(82)90130-0
1981MA14 Nucl.Phys. A363, 413 (1981) G.Mairle, G.J.Wagner, K.T.Knopfle, Liu Ken Pao, H.Riedesel, V.Bechtold, L.Friedrich Deformation of 1p Shells in (2s, 1d) Shell Nuclei from a Systematic Study of (d(pol), 3He) Reactions NUCLEAR REACTIONS 12C, 14N, 16,18O, 22Ne, 28Si(polarized d, 3He); E=52 MeV; measured iT11(E(3He), θ). 17N, 17O, 21F, 21Ne deduced levels, J, π, S. Enriched targets. DWBA, Nilsson model analyses.
doi: 10.1016/0375-9474(81)90266-9
1981MA24 Z.Phys. A301, 157 (1981) G.Mairle, Liu Ken Pao, G.J.Wagner, K.T.Knopfle, H.Riedesel A Comparative Spectroscopic Investigation of 21Ne and 21F by Pickup Reactions NUCLEAR REACTIONS 22Ne(d, t), (d, 3He), E=52 MeV; measured σ(θ, Et), σ(θ, E(3He)). 21Ne, 21F deduced levels, L, J, π, T, S. Enriched target. DWBA analysis.
doi: 10.1007/BF01419246
1981PO04 Nucl.Phys. A357, 237 (1981) F.Porto, S.Sambataro, K.Kusterer, Liu Ken Pao, G.Doukellis, H.L.Harney Reaction and Fusion Cross Sections for 32S on 27Al and 48Ti NUCLEAR REACTIONS 48Ti(32S, 32S), (32S, X), E(cm)=96 MeV; 27Al(32S, 32S), (32S, X), E(cm)=66.4, 73.2 MeV; measured σ(θ, elastic), σ(θ, evaporation residues); deduced σ(reaction).
doi: 10.1016/0375-9474(81)90636-9
1980WO07 Phys.Rev. C22, 2523 (1980) Inelastic Production of Deuteron Bag States NUCLEAR REACTIONS 2H(e, e), (e, e'), E not given; calculated form factors; 2H(p, p'), (p, p'), E=0.89 GeV; calculated σ(θ); deduced circumstances for dinucleon color resonances.
doi: 10.1103/PhysRevC.22.2523
1976LI14 Nucl.Phys. A265, 385 (1976) Giant Multipole Resonances NUCLEAR STRUCTURE 16O, 40Ca, 90Zr, 208Pb; calculated giant multipole resonances, strength distribution.
doi: 10.1016/0375-9474(76)90551-0
1976LI22 Phys.Lett. 65B, 23 (1976) A Self-Consistent Microscopic Description of the Giant Resonances Including the Particle Continuum NUCLEAR STRUCTURE 16O, 208Pb; calculated strength distribution for isovector dipole, isoscalar quadrupole modes.
doi: 10.1016/0370-2693(76)90525-6
1975LI25 Phys.Lett. 60B, 9 (1975) Velocity Dependence of the Skyrme Interaction NUCLEAR STRUCTURE 208Pb; calculated levels, level density; deduced characteristics of velocity dependence in the Skyrme interaction.
doi: 10.1016/0370-2693(75)90514-6
1975ZI01 Phys.Rev. C11, 809 (1975) M.S.Zisman, R.M.DeVries, J.G.Cramer, K.-L.Liu, Y.-d.Chan, B.Cuengco 16,18O Elastic Scattering from 58Ni NUCLEAR REACTIONS 58Ni(18O, 18O), E=63.4 MeV; 58Ni(16O, 16O), E=63, 71.5, 81 MeV; measured σ(θ); deduced optical model parameters.
doi: 10.1103/PhysRevC.11.809
1974DE03 Phys.Rev.Lett. 32, 680 (1974) R.M.DeVries, M.S.Zisman, J.G.Cramer, K.-L.Liu, F.D.Becchetti, B.G.Harvey, H.Homeyer, D.G.Kovar, J.Mahoney, W.von Oertzen Observation of an Anomalous Angular Distribution in the Single-Nucleon - Transfer Reaction 12C(14N, 13N)13C at 100 MeV NUCLEAR REACTIONS 12C(14N, 13N), E=100 MeV; measured σ(E(13N), θ). 13C deduced levels, L.
doi: 10.1103/PhysRevLett.32.680
1973BR09 Nucl.Phys. A205, 73 (1973) G.E.Brown, V.Horsfjord, K.F.Liu The Isovector Monopole Vibration; Coulomb Energies, Breaking of Charge Symmetry and Effects from α-Particle Correlation in the Nuclear Surface
doi: 10.1016/0375-9474(73)90120-6
1970LI01 Nucl.Phys. A140, 444 (1970) Effects of Finite Range and Exchange Interaction in (p, n) and (n, p) Knockout Reactions NUCLEAR REACTIONS 13C(p, n), E=18.5 MeV; 28Si(n, p), E=14 MeV; calculated σ(θ). DWBA, finite-range, exchange interaction.
doi: 10.1016/0375-9474(70)90336-2
Back to query form Note: The following list of authors and aliases matches the search parameter K.Liu: , K.F.LIU, K.H.LIU, K.J.LIU, K.L.LIU, K.P.LIU, K.X.LIU, K.Z.LIU |