NSR Query Results
Output year order : Descending NSR database version of May 3, 2024. Search: Author = S.Adhikari Found 51 matches. 2023AD04 Phys.Rev. C 108, 025201 (2023) S.Adhikari, for the GlueX Collaboration Measurement of the J/ψ photoproduction cross section over the full near-threshold kinematic region NUCLEAR REACTIONS 1H(γ, e+e-p), E=8.2-11.4 GeV; measured e+e- invariant mass spectrum, tagged photon spectrum, electron versus positron p/E distribution; deduced differential σ(Eγ) for J/ψ photoproduction, Bethe-Heitler (BH) σ(Eγ), and gluon structure of the proton. GlueX detector at CEBAF accelerator facility.
doi: 10.1103/PhysRevC.108.025201
2023AD05 Phys.Rev. C 108, 055204 (2023) S.Adhikari, for the GlueX Collaboration Measurement of spin-density matrix elements in ρ(770) production with a linearly polarized photon beam at Eγ = 8.2-8.8 GeV
doi: 10.1103/PhysRevC.108.055204
2023SH06 Astrophys.J. 945, 41 (2023) Y.Shen, B.Guo, R.J.deBoer, E.Li, Z.Li, Y.Li, X.Tang, D.Pang, S.Adhikari, C.Basu, J.Su, S.Yan, Q.Fan, J.Liu, C.Chen, Z.Han, X.Li, G.Lian, T.Ma, W.Nan, W.Nan, Y.Wang, S.Zeng, H.Zhang, W.Liu New Determination of the 12C(α, γ)16O Reaction Rate and Its Impact on the Black-hole Mass Gap NUCLEAR REACTIONS 12C(11B, 7Li), (11B, 11B), E=50 MeV; measured reaction products. 16O; deduced σ(θ), the asymptotic normalization coefficient (ANC) for the 16O ground state (GS), astrophysical S-factor and the stellar rate. The HI-13 tandem accelerator of China Institute of Atomic Energy (CIAE) in Beijing, China.
doi: 10.3847/1538-4357/acb7de
2023SU06 Phys.Rev. C 107, 064003 (2023) Three-charged-particle systems in the framework of coupled coordinate-space few-body equations NUCLEAR REACTIONS 2,3H(p-bar, X), E(cm)<10 eV;3H(d, X), E(cm)=0.01-1.0 eV; calculated three-body transfer and elastic scattering σ(E) and reaction states for muonic atoms dμ- and tμ-, total σ(E) and rate. Comparison to available experimental data. Relevance to the studies of big-bang nucleosynthesis and the nature of dark matter.
doi: 10.1103/PhysRevC.107.064003
2022AD04 Phys.Rev. C 105, 035201 (2022) S.Adhikari, for the GlueX Collaboration Measurement of spin density matrix elements in Λ(1520) photoproduction at 8.2--8.8 GeV NUCLEAR REACTIONS 1H(polarized γ, K+K-p), E=8.2-8.8 GeV; measured reaction products; deduced spin-density matrix elements, production features of Λ(1520). Comparison to theoretical calculations. GlueX experiment at the JLab.
doi: 10.1103/PhysRevC.105.035201
2021AD04 Phys.Rev. C 103, L022201 (2021) S.Adhikari, for the GlueX Collaboration Measurement of beam asymmetry for π-Δ++ photoproduction on the proton at Eγ = 8.5 GeV NUCLEAR REACTIONS 1H(polarized γ, π-Δ++), E=8.5, 8.2-8.8 GeV; measured charged particles using Central Drift Chamber (CDC) and Forward Drift Chamber (FDC), and photons using GLUEX spectrometer with two electromagnetic calorimeters at the CEBAF, Jefferson Lab; deduced π+p invariant mass distribution of events, degree of linear polarization as a function of beam photon energy, Dalitz plot of products, π- photoproduction beam asymmetry and compared with theoretical predictions.
doi: 10.1103/PhysRevC.103.L022201
2021MO18 Int.J.Mod.Phys. E30, 2150039 (2021) A.K.Mondal, C.Basu, S.Adhikari, C.Bhattacharya, T.K.Rana, S.Kundu, S.Manna, R.Pandey, P.Roy, A.Sen, J.K.Meena, A.K.Saha, J.K.Sahoo, D.Basak, T.Bar, H.Pai, A.Bisoi, A.K.Mitra, P.Biswas 12C(20Ne, 16O)16O α-transfer reaction and astrophysical S-factors at 300 keV NUCLEAR REACTIONS 12C(20Ne, 16O), E=150 MeV; measured reaction products; deduced energy spectra, σ(θ, E), σ(θ), S-factors. Asymptotic Normalization Constant (ANC). FRESCO calculations.
doi: 10.1142/S0218301321500397
2020AD12 Phys.Rev. C 101, 065206 (2020) S.Adhikari, for the GlueX Collaboration Measurement of the photon beam asymmetry in γ(pol)p → K+ Σ0 at Eγ = 8.5 GeV NUCLEAR REACTIONS 1H(polarized γ, Κ+Σ0), E=8.2-8.8 GeV; measured Eγ, Iγ, Ep, Ip, Eπ-, Iπ-, reaction yield before the decay of Σ0 to pπ-γ, photon beam asymmetry as function of t- and u-Mandelstam using the GlueX spectrometer in Hall D of Jefferson Lab. Comparison with theoretical predictions, and with previous experimental results.
doi: 10.1103/PhysRevC.101.065206
2020SH09 Phys.Rev.Lett. 124, 162701 (2020) Y.P.Shen, B.Guo, R.J.deBoer, Z.H.Li, Y.J.Li, X.D.Tang, D.Y.Pang, S.Adhikari, C.Basu, J.Su, S.Q.Yan, Q.W.Fan, J.C.Liu, C.Chen, Z.Y.Han, X.Y.Li, G.Lian, T.L.Ma, W.Nan, W.K.Nan, Y.B.Wang, S.Zeng, H.Zhang, W.P.Liu Constraining the External Capture to the 16O ground State and the E2 S Factor of the 12C(α, γ)16O reaction NUCLEAR REACTIONS 12C(11B, 7Li)16O, E=50 MeV; measured reaction products; deduced σ(θ), the ground state asymptotic normalization coefficients, S-factors. Comparison with available data.
doi: 10.1103/PhysRevLett.124.162701
2019AD17 Phys.Rev. C 100, 052201 (2019) S.Adhikari, for the GlueX Collaboration Beam asymmetry Σ for the photoproduction of η and η' mesons at Eγ = 8.8 GeV NUCLEAR REACTIONS 1H(polarized γ, pη), (polarized γ, pη'), E=8.2-8.8 GeV; measured degree of linear polarization in GlueX experiment at CEBAF of Jefferson Laboratory; deduced invariant mass distributions, yields of η and η' particles, photon beam asymmetry and asymmetry ratio, reactions proceed primarily through ρ and ω vector meson exchange. Comparison with previous experimental results.
doi: 10.1103/PhysRevC.100.052201
2019SH11 Phys.Rev. C 99, 025805 (2019) Y.P.Shen, B.Guo, Z.H.Li, Y.J.Li, D.Y.Pang, S.Adhikari, Z.D.An, J.Su, S.Q.Yan, X.C.Du, Q.W.Fan, L.Gan, Z.Y.Han, D.H.Li, E.T.Li, X.Y.Li, G.Lian, J.C.Liu, T.L.Ma, C.J.Pei, Y.Su, Y.B.Wang, S.Zeng, Y.Zhou, W.P.Liu Astrophysical SE2 factor of the 12C (α, γ)16O reaction through the 12C(11B, 7Li)16O transfer reaction NUCLEAR REACTIONS 12C(11B, 7Li), (11B, 11B), E=50 MeV; 16O(7Li, 7Li), E=26 MeV; measured charged-particle spectra, differential σ(θ) using the Q3D magnetic spectrograph at the HI-13 tandem accelerator of the CIAE-Beijing. 12C(α, γ), E(cm)<5 MeV; deduced astrophysical SE2(300) factor of the ground state. 16O; deduced asymptotic normalization coefficient (ANC) and reduced α width of the 6.917-MeV level from finite-range distorted wave Born approximation (FRDWBA) and coupled-reaction-channel (CRC) analysis using FRESCO code. Comparison with previous experimental values, and with theoretical model predictions. R-matrix analysis of scattering data.
doi: 10.1103/PhysRevC.99.025805
2017AD09 J.Phys.(London) G44, 015102 (2017) S.Adhikari, C.Basu, P.Sugathan, A.Jhinghan, B.R.Behera, N.Saneesh, G.Kaur, M.Thakur, R.Mahajan, R.Dubey, A.K.Mitra Breakup effects on alpha spectroscopic factors of 16O NUCLEAR REACTIONS 12C(7Li, t)16O, E=20 MeV; measured reaction products; deduced σ(θ), σ, reduced α width, asymptotic normalization constant, spectroscopic factors. Comparison with theoretical calculations.
doi: 10.1088/0954-3899/44/1/015102
2017FR07 Phys.Rev. C 96, 044601 (2017) A.Freese, D.Puentes, S.Adhikari, R.Badui, L.Guo, B.Raue Extraction of t slopes from experimental γp → K+Λ and γp → K+Σ0 cross section data NUCLEAR REACTIONS 1H(γ, K+Λ), (γ, K+Σ0), E=0.91-3.83 GeV; analyzed meson photoproduction data from the CLAS collaboration; deduced Regge trajectories, differential cross sections, and t-slope factor.
doi: 10.1103/PhysRevC.96.044601
2014AD07 Phys.Rev. C 89, 044618 (2014) S.Adhikari, C.Basu, I.J.Thompson, P.Sugathan, A.Jhinghan, K.S.Golda, A.Babu, D.Singh, S.Ray, A.K.Mitra Observation of a breakup-induced α-transfer process for some bound states of 16O populated by the 12C6Li, d)16O* reaction NUCLEAR REACTIONS 12C(6Li, d)16O*, E=20 MeV; measured deuteron spectra, σ(θ) at 15UD Pelletron facility of IUAC. 16O; deduced levels, α-unbound states, J, π, spectroscopic amplitudes, S(α) spectroscopic factors. 12C(α, γ); deduced astrophysical E2 S factor. Comparison with R-matrix FR-DWBA, Hauser-Feshbach, and Continuum discretized coupled-channel coupled reaction channel (CDCC-CRC) calculations with and without the inclusion of the breakup of 6Li. Comparison with previous experimental results.
doi: 10.1103/PhysRevC.89.044618
2011AD08 Int.J.Mod.Phys. E20, 958 (2011) Alpha spectroscopic factor of 16O from its breakup using continuum discretized coupled channel (CDCC) method NUCLEAR REACTIONS 27Al(16O, C), E=72-125 MeV; calculated σ(θ), spectroscopic factors. CDCC approach, comparison with experimental data.
doi: 10.1142/S0218301311019052
2011AD19 Phys.Lett. B 704, 308 (2011) The ANC of 16O subthreshold states from 12C(6Li, d) reaction at energies near the barrier NUCLEAR REACTIONS 12C(6Li, d), E<8 MeV; calculated a near barier σ(θ) of the ANC of 16O subthreshold states, alpha spectroscopic factors, σ. Finite Range Distorted Wave Born Approximation (FRDWBA) calculations.
doi: 10.1016/j.physletb.2011.09.036
2011BA22 Int.J.Mod.Phys. E20, 1058 (2011) C.Basu, S.Adhikari, A.K.Mitra, S.Ray, S.Pandit, S.Kumar, A.Chatterjee Observation of heavy cluster structure of 18O by inclusive measurement of intermediate mass fragment emitted in 18O + 12C reaction at 80 MeV NUCLEAR REACTIONS 12C(18O, X), E=80 MeV; measured reaction products, Li, Be and B fragments; deduced σ(θ, E). Comparison with LISE code simulation.
doi: 10.1142/S0218301311019271
2009AD08 Int.J.Mod.Phys. E18, 1917 (2009) S.Adhikari, C.Basu, B.R.Behera, S.Ray, A.K.Mitra, M.S.Kumar, A.Chatterjee The study of α + 14C cluster states of 18O through the resonant breakup reaction 12C(18O, 14Cα) at E(18O) = 94.5 MeV NUCLEAR REACTIONS 12C(18O, α14C), E=94.5 MeV; measured reaction fragments, excitation energy spectra, angular correlation spectra, sequential breakup σ. Comparison with CDCC-FRESCO calculations.
doi: 10.1142/S021830130901397X
2009AD09 Phys.Lett. B 682, 216 (2009) The study of the reduced α-width and ANC of 16O states through its sequential breakup NUCLEAR REACTIONS 208Pb(16O, X), E=80 MeV/nucleon; calculated breakup σ, σ(θ) for two excited state using continuum discretized coupled channel model; deduced astrophysical S-factor using asymptotic normalization coefficient method.
doi: 10.1016/j.physletb.2009.11.009
2007BA60 Phys.Rev. C 76, 034609 (2007) C.Basu, S.Adhikari, S.K.Ghosh, S.Roy, S.Ray, B.R.Behera, S.K.Datta Reaction mechanisms in 16O+40Ca at an incident energy of E(16O)=86 MeV through inclusive measurements of α and proton spectra NUCLEAR REACTIONS 40Ca(16O, X), E=86 MeV; measured particle proton and alpha energies, yields and angular distributions. Deduced inclusive σ.
doi: 10.1103/PhysRevC.76.034609
2006AD19 Phys.Rev. C 74, 024602 (2006) S.Adhikari, C.Samanta, C.Basu, B.J.Roy, S.Ray, A.Srivastava, K.Ramachandran, V.Tripathi, K.Mahata, V.Jha, P.Shukla, S.Rathi, M.Biswas, P.R.Chowdhury, A.Chatterjee, S.Kailas Reaction mechanisms with loosely bound nuclei 7Li+6Li at forward angles in the incident energy range 14-20 MeV NUCLEAR REACTIONS 6Li(7Li, pX), (7Li, dX), (7Li, tX), (7Li, αX), E=14-20 MeV; measured light charged particle yields, spectra, σ(E, θ); deduced reaction mechanism features. Comparison with model predictions.
doi: 10.1103/PhysRevC.74.024602
2005AD35 Eur.Phys.J. A 25, Supplement 1, 299 (2005) S.Adhikari, C.Samanta, C.Basu, S.Ray, A.Chatterjee, S.Kailas Entrance channel dependence in compound nuclear reactions with loosely bound nuclei NUCLEAR REACTIONS 6Li(6Li, αX), (7Li, αX), E=14-20 MeV; measured α-spectra. 12C(n, α), E=72.8 MeV; 28Si(6Li, α), E=36 MeV; analyzed α-spectra. Statistical model calculations. Target-projectile symmetry discussed.
doi: 10.1140/epjad/i2005-06-066-4
2005BB03 Eur.Phys.J. A 25, Supplement 1, 277 (2005) C.Basu, S.Adhikari, P.Basu, B.R.Behera, S.Ray, S.K.Ghosh, S.K.Datta Observation of pre-equilibrium alpha particles at extreme backward angles from 28Si + natSi and 28Si + 27Al reactions at E < 5 MeV/A NUCLEAR REACTIONS Si, 27Al(28Si, αX), E=130 MeV; measured α-spectra, σ(E, θ); deduced pre-equilibrium emission. Comparison with statistical model calculations.
doi: 10.1140/epjad/i2005-06-009-1
2005BB08 Int.J.Mod.Phys. E14, 1063 (2005) C.Basu, S.Adhikari, S.K.Ghosh, P.Basu, S.Ray, B.R.Behera, S.K.Datta Study of statistical emissions in 28Si + natSi and 28Si + 27Al reactions at 4-5 MeV/A incident energies NUCLEAR REACTIONS Si, 27Al(28Si, pX), (28Si, αX), E=130 MeV; measured Eα, Ep, σ(E, θ); deduced level density parameter. Statistical model analysis.
doi: 10.1142/S0218301305003703
2005KA49 Eur.Phys.J. A 25, Supplement 1, 261 (2005) R.Kanungo, M.Chiba, B.Abu-Ibrahim, S.Adhikari, D.Q.Fang, N.Iwasa, K.Kimura, K.Maeda, S.Nishimura, T.Ohnishi, A.Ozawa, C.Samanta, T.Suda, T.Suzuki, Q.Wang, C.Wu, Y.Yamaguchi, K.Yamada, A.Yoshida, T.Zheng, I.Tanihata A new view to the structure of 19C NUCLEAR REACTIONS Be(19C, 18CX), (19C, 17CX), E not given; measured longitudinal momentum distributions; deduced role of neutron evaporation. Comparison with Glauber model calculations.
doi: 10.1140/epjad/i2005-06-183-0
2005KA51 Eur.Phys.J. A 25, Supplement 1, 327 (2005) R.Kanungo, M.Chiba, B.Abu-Ibrahim, S.Adhikari, D.Q.Fang, N.Iwasa, K.Kimura, K.Maeda, S.Nishimura, T.Ohnishi, A.Ozawa, C.Samanta, T.Suda, T.Suzuki, Q.Wang, C.Wu, Y.Yamaguchi, K.Yamada, A.Yoshida, T.Zheng, I.Tanihata Observation of a two-proton halo in 17Ne NUCLEAR REACTIONS Be(17Ne, 15OX), E=64 MeV/nucleon; measured fragments longitudinal momentum distributions, interaction σ. 17Ne deduced two-proton halo features. Few-body Glauber model analysis.
doi: 10.1140/epjad/i2005-06-184-y
2004AD20 Nucl.Phys. A737, 289 (2004) Matter-wave interference, Josephson oscillation and its disruption in a Bose-Einstein condensate on an optical lattice
doi: 10.1016/j.nuclphysa.2004.03.090
2004AD29 Int.J.Mod.Phys. E13, 987 (2004) Systematic study of shell effect near drip-lines NUCLEAR STRUCTURE Z=4-98; analyzed binding energies, particle separation energies; deduced shell effects. Modified Bethe-Weiszacker formula.
doi: 10.1142/S0218301304002570
2004CH43 Nucl.Phys. A741, 29 (2004) M.Chiba, R.Kanungo, B.Abu-Ibrahim, S.Adhikari, D.Q.Fang, N.Iwasa, K.Kimura, K.Maeda, S.Nishimura, T.Ohnishi, A.Ozawa, C.Samanta, T.Suda, T.Suzuki, I.Tanihata, Q.Wang, C.Wu, Y.Yamaguchi, K.Yamada, A.Yoshida, T.Zheng Neutron removal studies on 19C NUCLEAR REACTIONS Be(19C, 18CX), (19C, 17CX), E=64 MeV/nucleon; measured one- and two-neutron removal σ, longitudinal momentum distributions. Comparison with previous results.
doi: 10.1016/j.nuclphysa.2004.06.009
2004JE07 Nucl.Phys. A739, 57 (2004) H.Jeppesen, R.Kanungo, B.Abu-Ibrahim, S.Adhikari, M.Chiba, D.Fang, N.Iwasa, K.Kimura, K.Maeda, S.Nishimura, T.Ohnishi, A.Ozawa, C.Samanta, T.Suda, T.Suzuki, I.Tanihata, Q.Wang, C.Wu, Y.Yamaguchi, K.Yamada, A.Yoshida, T.Zheng One- and two-proton removal from 15O NUCLEAR REACTIONS Be(15O, 14NX), (15O, 13CX), E=56 MeV/nucleon; measured parallel momentum distributions. 15O deduced valence proton configuration. 17Ne deduced halo features.
doi: 10.1016/j.nuclphysa.2004.03.145
2004SA33 Nucl.Phys. A738, 491 (2004) Shell effect in Pb isotopes near the proton drip line NUCLEAR STRUCTURE Pb; analyzed masses, proton separations energies, shell effects.
doi: 10.1016/j.nuclphysa.2004.04.094
2003KA43 Phys.Lett. B 571, 21 (2003) R.Kanungo, M.Chiba, S.Adhikari, D.Fang, N.Iwasa, K.Kimura, K.Maeda, S.Nishimura, Y.Ogawa, T.Ohnishi, A.Ozawa, C.Samanta, T.Suda, T.Suzuki, Q.Wang, C.Wu, Y.Yamaguchi, K.Yamada, A.Yoshida, T.Zheng, I.Tanihata Possibility of a two-proton halo in 17Ne NUCLEAR REACTIONS 9Be(17Ne, X), E=66 MeV/nucleon; measured particle spectra, longitudinal momentum distribution, two-proton removal σ. 17Ne deduced two-proton halo features.
doi: 10.1016/j.physletb.2003.07.050
2002SA08 Phys.Rev. C65, 037301 (2002); Comment Phys.Rev. C 69, 049803 (2004) Extension of the Bethe-Weizsacker Mass Formula to Light Nuclei and Some New Shell Closures NUCLEAR STRUCTURE C, Li, Bi; calculated binding energy per nucleon. Z=4-17; calculated one-neutron separation energies. 26O, 32Ne, 35Na, 38Mg, 41Al; calculated one- and two-neutron separation energies. New shell closures discussed.
doi: 10.1103/PhysRevC.65.037301
2001AD03 Nucl.Phys. A684, 666c (2001) Low-Energy Correlations in the Positronium-Hydrogen-Atom System
doi: 10.1016/S0375-9474(01)00517-6
2001SU07 Nucl.Phys. A684, 690c (2001) Low-Energy Three-Body Atomic Collision within a Coordinate-Space Integro-Differential Equation Approach: Muon-transfer reaction
doi: 10.1016/S0375-9474(01)00463-8
1998GH06 Phys.Rev. C58, 1913 (1998) A.Ghosh, S.K.Adhikari, B.Talukdar Dimensional Versus Cut-Off Renormalization and the Nucleon-Nucleon Interaction
doi: 10.1103/PhysRevC.58.1913
1995AD02 Phys.Rev. C51, 70 (1995) Relativistic Effect on Low-Energy Nucleon-Deuteron Scattering NUCLEAR REACTIONS 2H(polarized n, n), E=10 MeV; calculated nucleon to nucleon, nucleon to deuteron polarization transfer coefficient, spin correlation function; deduced relativistic dynamics dependence.
doi: 10.1103/PhysRevC.51.70
1994AD06 Phys.Rev. C50, 822 (1994) S.K.Adhikari, T.Frederico, I.D.Goldman, S.S.Sharma Model for Asymptotic D-State Parameters of Light Nuclei: Application to 4He NUCLEAR STRUCTURE 4He; calculated asymptotic D-state observables. Simple model.
doi: 10.1103/PhysRevC.50.822
1994AD09 Phys.Rev. C50, R2684 (1994) S.K.Adhikari, C.F.de Araujo, Jr., T.Frederico Theoretical Prevision for the Low-Energy 3S1-3D1 Mixing Parameters
doi: 10.1103/PhysRevC.50.R2684
1994AD18 Ann.Phys.(New York) 235, 77 (1994) S.K.Adhikari, T.Frederico, L.Tomio Relativistic Three-Particle Dynamical Equations I. Theoretical Development
doi: 10.1006/aphy.1994.1091
1994AD19 Ann.Phys.(New York) 235, 103 (1994) Relativistic Three-Particle Dynamical Equations. II. Application to the Trinucleon System NUCLEAR STRUCTURE 3H; calculated binding energy; deduced relativistic dynamics contribution. Relativistic three-particle dynamical equations. NUCLEAR REACTIONS 2H(n, n), E=low; calculated scattering length; deduced relativistic dynamics contribution. Relativistic three-particle dynamical equations.
doi: 10.1006/aphy.1994.1092
1993AD13 Int.J.Mod.Phys. E2, 597 (1993) Coulomb Effect in the Trinucleon System in an Optical Potential Model NUCLEAR STRUCTURE 3He, 3H; calculated binding energy; deduced nd-, pd-scattering length, triton binding, 3He static Coulomb energies correlation. Optical model approach.
doi: 10.1142/S021830139300025X
1990AD05 Phys.Rev. C42, 128 (1990) Analytical Model for the Triton Asymptotic D-State Parameters NUCLEAR STRUCTURE 3H; calculated asymptotic D- to S-state normalization ratio, D-state parameter; deduced binding energy dependence. Analytical model.
doi: 10.1103/PhysRevC.42.128
1988AD03 Phys.Rev. C37, 1376 (1988) Effect of Polarization Potential in Proton-Deuteron Scattering NUCLEAR REACTIONS 2H(p, p), E=0-3 MeV; calculated phase shifts; deduced polarization potential role.
doi: 10.1103/PhysRevC.37.1376
1988FR01 Phys.Rev. C37, 364 (1988) T.Frederico, S.K.Adhikari, M.S.Hussein Estimate of the Triton Asymptotic D to S Ratio NUCLEAR STRUCTURE 3H; calculated asymptotic D to S ratio, separable nucleon-nucleon potentials.
doi: 10.1103/PhysRevC.37.364
1988FR05 Phys.Rev. C37, 949 (1988) T.Frederico, I.D.Goldman, S.K.Adhikari Possibility of New Information about the N-N Force in N-d Polarization Observables NUCLEAR REACTIONS 2H(polarized n, n), (polarized p, p), E=10 MeV; calculated polarization observables vs θ.
doi: 10.1103/PhysRevC.37.949
1987TO04 Phys.Rev. C35, 441 (1987) L.Tomio, A.Delfino, S.K.Adhikari Trinucleon System in a Two-Body Model: Coulomb effect on bound and scattering states NUCLEAR REACTIONS 2H(n, n), (p, p), E=low; calculated phase shifts, scattering lengths. Two-body model. NUCLEAR STRUCTURE 3H, 3He; calculated binding energies. Two-body model.
doi: 10.1103/PhysRevC.35.441
1986DI12 Phys.Rev.Lett. 57, 1998 (1986) H.Dias, M.S.Hussein, S.K.Adhikari Decay Properties of Giant Multipole Resonances: Collective doorways and statistical doorways NUCLEAR REACTIONS 208Pb(γ, n), E not given; calculated neutron spectrum. 208Pb deduced giant multipole resonance decay characteristics. Preequilibrium emission calculations.
doi: 10.1103/PhysRevLett.57.1998
1984AD03 Phys.Rev. C30, 31 (1984) Correlation among Low-Energy Three-Nucleon Observables NUCLEAR STRUCTURE 3H; calculated ground state energy vs n-d scattering length; deduced low energy correlation role. Partial wave dispersion theory, N/D approach, Phillips, Girard-Fuda plots.
doi: 10.1103/PhysRevC.30.31
1972AD08 Phys.Lett. 40B, 11 (1972) Parameterization of the Three-Body D-Function
doi: 10.1016/0370-2693(72)90268-7
1972AD13 Phys.Rev. C6, 1484 (1972) Parameterization of the Three-Body D Function. II
doi: 10.1103/PhysRevC.6.1484
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