NSR Query Results
Output year order : Descending NSR database version of April 27, 2024. Search: Author = V.Kovalchuk Found 21 matches. 2022KO25 Iader.Fiz.Enerh. 23, 20 (2022) Inclusive reactions of stripping and fragmentation involving light cluster nuclei at intermediate energies NUCLEAR REACTIONS 12C(3He, d)13N, E=81.4 MeV; calculated σ(θ), σ(θ, E) using the framework of eiconal approximation and the double folding model. Comparison with experimental data.
doi: 10.15407/jnpae2022.01.020
2016KO34 Int.J.Mod.Phys. E25, 1650095 (2016) Polarized-deuteron stripping reaction at intermediate energies NUCLEAR REACTIONS 24Mg, 40Ca(polarized d, p), E=56 MeV; calculated σ(θ). Comparison with available data.
doi: 10.1142/S0218301316500956
2016KO40 Phys.Atomic Nuclei 79, 335 (2016); Yad.Fiz. 79, 229 (2016) Microscopic description of diffractive deuteron breakup by 3He nuclei NUCLEAR REACTIONS 2H(3He, p3He), E=89.4 MeV; calculated σ(θ, Efragment) using diffraction model based microscopic formalism for deuteron breakup. Compared with data.
doi: 10.1134/S1063778816020101
2015KO10 Nucl.Phys. A937, 59 (2015) Deuteron stripping on nuclei at intermediate energies NUCLEAR REACTIONS 2H(d, n), E=787, 858, 1242 MeV; calculated σ(θ) using diffraction approximation with Glauber formalism and double-folding potential with exact deuteron wavefunction and with using model deuteron function. Compared with data and with published virtual pion exchange model.
doi: 10.1016/j.nuclphysa.2015.02.008
2012KO08 Phys.Atomic Nuclei 75, 33 (2012); Yad.Fiz. 75, 35 (2012) Test of the Glauber formula for nucleon-deuteron scattering at intermediate energies
doi: 10.1134/S1063778812010103
2011KO20 Phys.Atomic Nuclei 74, 693 (2011); Yad.Fiz. 74, 720 (2011) V.I.Kovalchuk, I.V.Kozlovsky, V.K.Tartakovsky Solving Faddeev equations for a bound state and a continuous spectrum of a three-nucleon system by the method of K-harmonic expansions
doi: 10.1134/S1063778811040090
2010BU14 Iader.Fiz.Enerh. 11, 405 (2010); Nuc.phys.atom.energ. 11, 405 (2010) L.A.Bulavin, D.A.Gavryushenko, V.I.Kovalchuk, V.F.Korolovich On the possibility of nanofluids using as a coolant
2010KO08 Ukr.J.Phys. 55, 342 (2010) V.I.Kovalchuk, I.V.Kozlovsky, V.K.Tartakovsky Calculations of Wave Functions of the nd-system, Phases, and Cross-sections of nd-scattering with the Use of Modified Faddeev's Equations and the Method of Hyperspherical Functions
2009KO18 Phys.Atomic Nuclei 72, 1247 (2009); Yad.Fiz. 72, 1299 (2009) Diffractive scattering of 7Be and 8B nuclei by 12C nuclei
doi: 10.1134/S1063778809080018
2008KO17 Bull.Rus.Acad.Sci.Phys. 72, 817 (2008) V.I.Kovalchuk, V.K.Tartakovsky, I.V.Kozlovsky Solution of Faddeev-type equations and calculation of the low-energy p-d scattering cross section NUCLEAR REACTIONS 2H(p, p), E=2.08 MeV; calculated σ(θ). Compared results to available data.
doi: 10.3103/S1062873808060221
2008KO24 Ukr.J.Phys. 53, 757 (2008) V.I.Kovalchuk, V.K.Tartakovsky, I.V.Kozlovsky Calculations of nd-scattering cross-sections by Faddeev's method with a hyperspherical basis NUCLEAR REACTIONS 2H(n, n), E=0.333 - 2.5 MeV; calculated cross sections.
2008TA34 Iader.Fiz.Enerh. 9 no.3, 22 (2008) V.K.Tartakovsky, I.V.Kozlovsky, V.I.Kovalchuk Reduction of Faddeev equations to the system of equations for functions of one variable by hyperspherical harmonics method
doi: 10.15407/jnpae
2007KO79 Iader.Fiz.Enerh. 8 no.2, 75 (2007); Nuc.phys.atom.energ. 8, no.2. 75 (2007) Diffraction scattering of 6Li ions from atomic nuclei NUCLEAR REACTIONS 28Si(6Li, 6Li), E=310 MeV;28Si, 40Ca, 90Zr(6Li, 6Li), E=210 MeV; calculated σ(θ). Diffraction approximation. Comparison with experimental data.
doi: 10.15407/jnpae
2005TA41 Iader.Fiz.Enerh. 6 no.3, 24 (2005); Nuc.phys.atom.energ. 6, no.3, 24 (2005) V.K.Tartakovsky, V.I.Kovalchuk, I.V.Kozlovsky The numerical solution of Faddeev's equations and the calculation of ND-scattering cross section in fundamental K-harmonic approximation NUCLEAR REACTIONS 2H(n, n), E=3.28 MeV; calculated σ(θ). Faddeev equations. Comparison to experimental data.
doi: 10.15407/jnpae
2003KO80 Ukr.J.Phys. 48, 901 (2003) V.I.Kovalchuk, V.K.Tartakovsky, O.I.Ivanova Theoretical description of elastic scattering of 700 MeV deuterons by 40Ca and 58Ni NUCLEAR REACTIONS 40Ca, 58Ni(d, d), E=700 MeV; calculated σ(θ). Quasi-classical approximation, comparison with data.
2003KO82 Iader.Fiz.Enerh. 4 no.1, 19 (2003) V.I.Kovalchuk, V.K.Tartakovsky, O.I.Ivanova On the effects of nuclear structure and the coulomb interaction at diffraction deuteron-nucleus scattering NUCLEAR REACTIONS 40Ca, 58Ni(d, d), E=700 MeV; calculated σ(θ)(elastic)/σ(θ)(Rutherford). Diffraction model. Comparison with data.
doi: 10.15407/jnpae
2002TA24 Bull.Rus.Acad.Sci.Phys. 65, 1746 (2002) V.K.Tartakovsky, A.V.Fursaev, V.I.Kovalchuk Phase-Shift Parametrization of Diffraction Hadron-Nucleus Scattering NUCLEAR REACTIONS 56Fe, 90Zr, 115In, 197Au(p, p), E ≈ 182 MeV; 16O, 40Ca, 92Zr, 116Sn(p, p), E ≈ 0.5-1 GeV; calculated σ(θ). Comparisons with data.
2001KI14 J.Korean Phys.Soc. 38, 14 (2001) G.Kim, Y.S.Lee, V.Skoy, V.Kovalchuk, M.-H.Cho, I.S.Ko, W.Namkung, D.W.Lee, H.D.Kim, S.K.Ko, S.H.Park, D.S.Kim, T.I.Ro, Y.G.Min First Experiment at the Pohang Neutron Facility NUCLEAR REACTIONS Sm, Ta, W, Ag(n, X), E=low; measured transmission neutron spectra. Pulsed neutron source.
2001TA38 Iader.Fiz.Enerh. 2 no.2, 7 (2001) V.K.Tartakovsky, A.V.Fursayev, V.I.Kovalchuk The cross sections calculations of hadrons and complex particles elastic scattering on nuclei with phase using in quasi-classic approximation NUCLEAR REACTIONS 56Fe, 115In, 197Au(p, p'), E=182 MeV; 90Zr(p, p'), E=185 MeV; calculated σ(θ), phase shifts. Comparison to experimental data.
doi: 10.15407/jnpae
2000FU18 Bull.Rus.Acad.Sci.Phys. 64, 785 (2000) A.V.Fursaev, V.K.Tartakovsky, V.I.Kovalchuk Neutron Polarization in the Deuteron Stripping Reaction
1994KO53 Nucl.Instrum.Methods Phys.Res. A351, 590 (1994) V.D.Kovalchuk, V.I.Trotsik, V.D.Kovalchuk Diamond Detector as a Fast Neutron Spectrometer NUCLEAR REACTIONS 12C(n, α), (n, X), E=14.6 MeV; measured α-, other particle spectra; deduced characteristics of diamond detector as neutron spectrometer. Comparison with Si semi-conductor detector.
doi: 10.1016/0168-9002(94)91393-5
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