NSR Query Results
Output year order : Descending NSR database version of April 26, 2024. Search: Author = V.K.Sirotkin Found 23 matches. 1996NE07 Yad.Fiz. 59, No 11, 1925 (1996); Phys.Atomic Nuclei 59, 1857 (1996) B.A.Nemashkalo, S.S.Ratkevich, V.K.Sirotkin, I.D.Fedorets, K.V.Shebeko Radiative Capture of Protons by 69Ga Nuclei NUCLEAR REACTIONS, ICPND 69Ga(p, γ), E=1.8-3.3 MeV; measured partial σ(E). 70Ge deduced partial radiative strength function.
1994ZA04 Yad.Fiz. 57, No 1, 39 (1994); Phys.Atomic Nuclei 57, 35 (1994) Parity Violation Mechanisms in Neutron Reactions NUCLEAR STRUCTURE 81Br, 93Nb, 111Cd, 117Sn, 139La, 208Pb, 232Th; analyzed parity violation data, neutron induced reactions; deduced mechanisms, one-particle parity violating potential associated universal constant value.
1994ZA07 Yad.Fiz. 57, No 5, 727 (1994); Phys.Atomic Nuclei 57, 777 (1994) I.I.Zalyubovsky, B.A.Nemashkalo, S.S.Ratkevich, V.K.Sirotkin, I.D.Fedorets, K.V.Shebeko Partial Cross Sections of the 45Sc(p, γ(i)) Reaction and the Radiative Strength Function of 46Ti in the Vicinity of Nucleon Binding Energy NUCLEAR REACTIONS, ICPND 45Sc(p, γ), E=1.2-3.1 MeV; measured σ(E). 46Ti levels deduced J, π. Statistical approach.
1992NE05 Yad.Fiz. 55, 123 (1992); Sov.J.Nucl.Phys. 55, 69 (1992) B.A.Nemashkalo, K.V.Shebeko, V.K.Sirotkin Analysis of the Partial and Total Cross Sections for the Reaction 48,50Ti(p, γ)49,51V NUCLEAR REACTIONS, ICPND 48,50Ti(p, γ), E=1-3.5 MeV; measured partial, total σ. 51V deduced radiative strength function. Statistical approach, temperature, shell structure effects. Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD5187. 1990ZA12 Yad.Fiz. 52, 395 (1990); Sov.J.Nucl.Phys. 52, 253 (1990) Effect of Two-Quantum Transitions on the Angular Asymmetry in (nγ) Reactions NUCLEAR STRUCTURE 118Sn; calculated hard photon Γγ; deduced two-quantum transitions role.
1988KO14 Yad.Fiz. 47, 1577 (1988) Even-Odd Effects in Charge Distributions of Cold Fragmentation Products from Actinide Nuclei NUCLEAR REACTIONS 229Th, 232,233,235U, 239Pu(n, F), E not given; analyzed fission data; deduced even-odd effects in cold fragmentation charge distributions.
1988ZA05 Izv.Akad.Nauk SSSR, Ser.Fiz. 52, 984 (1988); Bull.Acad.Sci.USSR, Phys.Ser. 52, No.5, 146 (1988) The Roles of Various Radiative Neutron-Capture Mechanisms NUCLEAR REACTIONS 144Nd(n, γ), E not given; calculated radiative strength function vs E(γ); deduced capture mechanisms role.
1987ZA05 Yad.Fiz. 45, 1302 (1987) On Effects of Various Mechanisms in Violation of Space Parity in Neutron-Induced Reactions NUCLEAR REACTIONS 35Cl, 81Br, 93Nb, 111Cd, 117,124Sn, 207Pb(polarized n, γ), E=cold; calculated forward-backward asymmetries, polarization vector rotations, helicity dependent asymmetries; deduced reaction mechanism dependences. Valence, compound nucleus mechanisms.
1986SI05 Yad.Fiz. 43, 570 (1986) Radiational Strength Functions of Neutron Resonances NUCLEAR STRUCTURE 144Sm; calculated E1 transition strength function; deduced Γγ, Γn, M1, E1 relative contributions.
1985LY02 Phys.Lett. 161B, 9 (1985) Yu.S.Lyutostansky, V.K.Sirotkin, I.V.Panov The β-Delayed Multi-Neutron Emission RADIOACTIVITY 31,32,33,34,35Na, 53,54,55K, 102,103Rb(β-n); calculated T1/2, β-delayed one-, two-, three-neutron emission probabilities. 75As, 101Rb(β-n); calculated T1/2, one-, two-neutron emission probabilities. Microscopic approach.
doi: 10.1016/0370-2693(85)90597-0
1984ZA05 Yad.Fiz. 39, 585 (1984); Sov.J.Nucl.Phys. 39, 370 (1984) Space Parity Nonconservation Effects in Radiative Neutron Capture NUCLEAR REACTIONS Br, 111Cd, 117Sn, 139La(n, γ), E ≈ resonance; calculated capture γ CP, γ(θ) asymmetry coefficient; deduced space parity nonconservation role.
1984ZA10 Yad.Fiz. 40, 1256 (1984) Space Parity Violation Effects in Diffraction of Neutrons NUCLEAR REACTIONS Br, 117Sn, 111Cd, 139La(polarized n, n), E=thermal; calculated space parity violation effects. Laue dynamical diffraction.
1983LY01 Yad.Fiz. 37, 274 (1983) Yu.S.Lyutostansky, I.V.Panov, V.K.Sirotkin On Possible Two-Neutron Emission in β Decay of A ≥ 50 Nuclei RADIOACTIVITY 30,31,32Na(β-); 50,51,52K(β-); 92Br(β-); 98,99,100Rb(β-); 132In(β-); 136Sb(β-); calculated two neutron emission probability following β-decay. Microscopic model.
1983ZA08 Yad.Fiz. 37, 607 (1983); Sov.J.Nucl.Phys. 37, 361 (1983) On the Mechanism of Parity Violation in Interactions between Neutrons and Nuclei NUCLEAR REACTIONS 117Sn, 139La, 114Cd(n, n), (n, γ), E ≈ resonance; analyzed data; deduced parity violation mechanism.
1980DI11 Nuovo Cim. A56, 21 (1980) On the Energy Dependence of the Inelastic Cross Section in the Presence of Doorway States NUCLEAR REACTIONS 56Fe(n, n'), E=0.84-0.96 MeV; calculated σ(E); deduced role of doorway states. Shell model, Green's function formalism.
doi: 10.1007/BF02729976
1978FE06 Nucl.Phys. A312, 17 (1978) J.R.Fernandez Diaz, V.K.Sirotkin Microscopic Approach to Neutron Total Cross-Section Fluctuations NUCLEAR REACTIONS 16O, 28Si, 32S, 40Ca(n, X); calculated total σ fluctuation in framework of shell model, Green function formalism. Comparison with data.
doi: 10.1016/0375-9474(78)90572-9
1978ZA10 Yad.Fiz. 27, 1534 (1978); Sov.J.Nucl.Phys. 27, 808 (1978) Total Radiative Widths of Neutron Resonances NUCLEAR REACTIONS 35Cl, 55Mn, 68Zn, 78Se, 88Sr, 96Mo, 107Ag, 116Sn, 129I, 143Nd, 149Sm, 161Dy, 169Tm, 179Hf, 191Ir, 199Hg, 203Tl, 235,238U, 243Am(n, γ); calculated total Γγ assuming dipole transitions.
1977SI19 Yad.Fiz. 26, 495 (1977); Sov.J.Nucl.Phys. 26, 262 (1977) Influence of Doorway States on Neutron Strength Functions NUCLEAR STRUCTURE 90,91,92,94,96Zr, 93Nb, 92,94,95,96,97,98,100Mo, 99Tc, 101Ru, 103Rh, 105Pd, 107,109Ag, 110,111,112,113,114,116Cd, 113,115In, 112,114,115,116,117,118,119,120,122,124Sn, 121,123Sb, 122,123,124,125,126,128,130Te, 127,129I, 128,129,130,131Xe, 133Cs, 134,135,136,137,138Ba, 139,138La, 140,142Ce; calculated neutron strength function.
1975SI17 Izv.Akad.Nauk SSSR, Ser.Fiz. 39, 105 (1975); Bull.Acad.Sci.USSR, Phys.Ser. 39, No.1, 91 (1975) Application of the Shell Approach to a Description of the Differential Elastic-Scattering Cross Sections and the Polarization of Low-Energy Neutrons NUCLEAR REACTIONS 46,50Ti, 58,64Ni, 90,96Zr, 92,100Mo, 110,116Cd, 112,124Sn(n, n), E=1.5 MeV; calculated σ, polarization.
1975ZA12 Yad.Fiz. 22, 709 (1975); Sov.J.Nucl.Phys. 22, 367 (1976) D.F.Zaretskii, V.K.Sirotkin, M.G.Urin Scattering of Filtered Neutrons NUCLEAR REACTIONS 56Fe, 208Pb(n, n), E=1.8 MeV; calculated σ(θ), difference for filtered, unfiltered beam.
1971SI34 Izv.Akad.Nauk SSSR, Ser.Fiz. 35, 118 (1971); Bull.Acad.Sci.USSR, Phys.Ser. 35, 108 (1972) Elastic Scattering Differential Cross Sections with Allowance for Excitation of Compound-Nucleus Levels NUCLEAR REACTIONS 60Ni(p, p), E=11 MeV; 120Sn(p, p), E=9.6 MeV; 90Zr(n, n), E=7 MeV; 120Sn, 181Ta(n, n), E=7 MeV; calculated σ(θ). Compound-nucleus excitation.
1971SI35 Izv.Akad.Nauk SSSR, Ser.Fiz. 35, 2359 (1971); Bull.Acad.Sci.USSR, Phys.Ser. 35, 2140 (1972) The Sub-Barrier (p, n) Reaction in the Single-Particle Resonance Region NUCLEAR REACTIONS 117,120,124Sn(p, n), E=3-8 MeV; calculated strength function(E).
1971ZA10 Yad.Fiz. 14, 1179 (1971); Sov.J.Nucl.Phys. 14, 657 (1972) D.F.Zaretskii, V.K.Sirotkin, M.G.Urin Single-Particle Resonances in the Cross Sections of Reactions and Elastic Scattering of Nucleons by Nuclei
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