NSR Query Results
Output year order : Descending NSR database version of April 26, 2024. Search: Author = D.Rozpedzik Found 18 matches. 2023SE01 Phys.Rev. C 107, 015502 (2023) N.Severijns, L.Hayen, V.De Leebeeck, S.Vanlangendonck, K.Bodek, D.Rozpedzik, I.S.Towner Ft values of the mirror β transitions and the weak-magnetism-induced current in allowed nuclear β decay RADIOACTIVITY 1n, 3H(β-); 11C, 13N, 15O, 17F, 19Ne, 21Na, 23Mg, 25Al, 27Si, 29P, 31S, 33Cl, 35Ar, 37K, 39Ca, 41Sc, 43Ti, 45V, 47Cr, 49Mn, 51Fe, 53Co, 55Ni, 57Cu, 59Zn, 61Ga, 63Ge, 65As, 67Se, 69Br, 71Kr, 73Rb, 75Sr, 77Y, 79Zr, 81Nb, 83Mo, 85Tc, 89Rh, 91Pd, 93Ag, 95Cd, 97In, 99Sn(EC), (β+); analyzed and evaluated measured half-lives for decays of all the listed nuclei, and ground-state branching ratios for decays of 1n to 75Sr, T=1/2 mirror β decays; deduced adopted T1/2, ground-state branching ratios for decays of 1n to 83Mo, except 69Br, 73Rb and 81Nb. 1n, 3H(β-); 11C, 13N, 15O, 17F, 19Ne, 21Na, 23Mg, 25Al, 27Si, 29P, 31S, 33Cl, 35Ar, 37K, 39Ca, 41Sc, 43Ti, 45V, 47Cr, 49Mn, 51Fe, 53Co, 55Ni, 57Cu, 59Zn, 61Ga, 67Se, 71Kr, 75Sr(EC), (β+); calculated quantities and relevant corrections leading to the Ft values for mirror β transitions, and compared with available experimental values; comparison of experimental and theoretical values for the Gamow-Teller matrix element (MGT) and the orbital current matrix element (ML) for mirror β transitions from 1n to 45V decays. 6He, 9Li, 12,13B, 14,15C, 16N, 19O, 20F, 23Ne, 24,24mNa, 28Al, 32Si(β-); 9,10C, 12N, 13,14O, 18F, 18Ne, 20,22Na, 22Mg, 24,24mAl, 26Si, 28,30P, 30S, 32Cl, 34Ar, 36K, 38Ca, 42Ti, 53Ni(EC), (β+); analyzed logft values and other data for β transitions for T=1, 3/2 and 2 multiplet states for radiative corrections; comparison of the experimental values for the MGT and ML, and the form factors with the theoretical values calculated using shell model. 1n, 3H, 6He, 8,9Li, 12B, 16N, 20F, 23,24Ne, 24,24mNa(β-); 8Be, 9,10,11C, 12,13N, 15O, 17,18F, 18,19Ne, 20,21Na, 23Mg, 24,24m,25Al, 27Si, 29,30P, 30,31S, 33Cl, 35Ar, 36,37K, 39Ca(EC), (β+); analyzed overview of values of experimental form factors for all ground-state to ground-state and ground-state to first-excited 2+ or 4+ state T=1 and 3/2 transitions with A<39, and comparison with theoretical shell model calculations. 6He, 9Li, 12,13B, 14,15C, 16N, 19O, 20F, 23Ne, 24,24mNa, 28Al, 32Si(β-); 9,10C, 12N, 13,14O, 18Ne, 18F, 20,22Na, 22Mg, 24,24mAl, 26Si, 28,30P, 30S, 32Cl, 34Ar, 36K, 38Ca, 42Ti, 53Ni(β+); analyzed decay schemes for T=1 and T=3/2 mirror β transitions. Update of the Ft values of the isospin T=1/2 mirror β decays determine the Vud quark-mixing matrix element, taking into account recoil terms, weak magnetism, for the mirror β decays and a large set of β decays in higher isospin multiplets. Relevance to reactor neutrino problem and reactor neutrino anomaly. NUCLEAR MOMENTS 1n, 1,3H, 3He, 11,13C, 11B, 13,15N, 15,17O, 17,19F, 19,21Ne, 21,23Na, 23,25Mg, 25,27Al, 27,29Si, 29,31P, 31,33S, 33,35Cl, 35,37Ar, 37,39K, 39,41Ca, 41,43Sc, 43,45Ti, 45,47V, 47,49Cr, 49,51Mn, 51,53Fe, 53,55Co, 55,57Ni, 57,59Cu, 59,61Zn, 61,63Ga, 67As, 67Se, 71Br, 71Kr, 75Rb, 75,77Sr; analyzed and evaluated measured magnetic dipole moments of T=1/2 mirror nuclei; deduced adopted values, and calculated magnetic moments for which no experimental data available; deduced conserved vector current (CVC) form factors, and compared with theoretical shell-model calculations.
doi: 10.1103/PhysRevC.107.015502
2021AY03 Eur.Phys.J. A 57, 152 (2021), Erratum Eur.Phys.J. A 57, 244 (2021) N.J.Ayres, G.Ban, G.Bison, K.Bodek, V.Bondar, E.Chanel, P.-J.Chiu, C.B.Crawford, M.Daum, S.Emmenegger, L.Ferraris-Bouchez, P.Flaux, Z.Grujic, P.G.Harris, N.Hild, J.Hommet, M.Kasprzak, Y.Kermaidic, K.Kirch, S.Komposch, A.Kozela, J.Krempel, B.Lauss, T.Lefort, Y.Lemiere, A.Leredde, P.Mohanmurthy, A.Mtchedlishvili, O.Naviliat-Cuncic, D.Pais, F.M.Piegsa, G.Pignol, M.Rawlik, D.Rebreyend, I.Rienacker, D.Ries, S.Roccia, D.Rozpedzik, P.Schmidt-Wellenburg, A.Schnabel, R.Virot, A.Weis, E.Wursten, J.Zejma, G.Zsigmond Data blinding for the nEDM experiment at PSI
doi: 10.1140/epja/s10050-021-00456-1
2020AB02 Phys.Rev.Lett. 124, 081803 (2020) C.Abel, S.Afach, N.J.Ayres, C.A.Baker, G.Ban, G.Bison, K.Bodek, V.Bondar, M.Burghoff, E.Chanel, Z.Chowdhuri, P.-J.Chiu, B.Clement, C.B.Crawford, M.Daum, S.Emmenegger, L.Ferraris-Bouchez, M.Fertl, P.Flaux, B.Franke, A.Fratangelo, P.Geltenbort, K.Green, W.C.Griffith, M.van der Grinten, Z.D.Grujic, P.G.Harris, L.Hayen, W.Heil, R.Henneck, V.Helaine, N.Hild, Z.Hodge, M.Horras, P.Iaydjiev, S.N.Ivanov, M.Kasprzak, Y.Kermaidic, K.Kirch, A.Knecht, P.Knowles, H.-C.Koch, P.A.Koss, S.Komposch, A.Kozela, A.Kraft, J.Krempel, M.Kuzniak, B.Lauss, T.Lefort, Y.Lemiere, A.Leredde, P.Mohanmurthy, A.Mtchedlishvili, M.Musgrave, O.Naviliat-Cuncic, D.Pais, F.M.Piegsa, E.Pierre, G.Pignol, C.Plonka-Spehr, P.N.Prashanth, G.Quemener, M.Rawlik, D.Rebreyend, I.Rienacker, D.Ries, S.Roccia, G.Rogel, D.Rozpedzik, A.Schnabel, P.Schmidt-Wellenburg, N.Severijns, D.Shiers, R.Tavakoli Dinani, J.A.Thorne, R.Virot, J.Voigt, A.Weis, E.Wursten, G.Wyszynski, J.Zejma, J.Zenner, G.Zsigmond Measurement of the Permanent Electric Dipole Moment of the Neutron NUCLEAR MOMENTS 1NN; measured frequencies; deduced the electric dipole moment (EDM) of the neutron or its upper limit.
doi: 10.1103/PhysRevLett.124.081803
2020PA43 Phys.Rev. C 102, 054002 (2020) W.Parol, A.Kozela, K.Bodek, A.Deltuva, M.Eslami-Kalantari, J.Golak, N.Kalantar-Nayestanaki, G.Khatri, St.Kistryn, B.Klos, J.Kubos, P.Kulessa, A.Lobejko, A.Magiera, H.Mardanpour, J.G.Messchendorp, I.Mazumdar, R.Skibinski, I.Skwira-Chalot, E.Stephan, A.Ramazani-Moghaddam-Arani, D.Rozpedzik, A.Wilczek, H.Witala, B.Wloch, A.Wronska, J.Zejma Measurement of differential cross sections for the deuteron-proton breakup reaction at 160 MeV NUCLEAR REACTIONS 1H(d, 2p), E=80 MeV/nucleon; measured reaction products and charged particles using Big Instrument for Nuclear-polarization Analysis (BINA) at KVI-Groningen; deduced interpolated σ for deuteron-proton elastic scattering, luminosity integrated over time, differential cross sections for deuteron breakup process for 243 geometrical configurations. Comparison with theoretical calculations modeling nuclear interactions with and without the three-nucleon force (3NF) and the Coulomb interaction.
doi: 10.1103/PhysRevC.102.054002
2019AB02 Phys.Rev. A 99, 042112 (2019) C.Abel, N.J.Ayres, T.Baker, G.Ban, G.Bison, K.Bodek, V.Bondar, C.B.Crawford, P.-J.Chiu, E.Chanel, Z.Chowdhuri, M.Daum, B.Dechenaux, S.Emmenegger, L.Ferraris-Bouchez, P.Flaux, P.Geltenbort, K.Green, W.C.Griffith, M.van der Grinten, P.G.Harris, R.Henneck, N.Hild, P.Iaydjiev, S.N.Ivanov, M.Kasprzak, Y.Kermaidic, K.Kirch, H.-C.Koch, S.Komposch, P.A.Koss, A.Kozela, J.Krempel, B.Lauss, T.Lefort, Y.Lemiere, A.Leredde, P.Mohanmurthy, D.Pais, F.M.Piegsa, G.Pignol, G.Quemener, M.Rawlik, D.Rebreyend, D.Ries, S.Roccia, D.Rozpedzik, P.Schmidt-Wellenburg, A.Schnabel, N.Severijns, R.Virot, A.Weis, E.Wursten, G.Wyszynski, J.Zejma, G.Zsigmond Magnetic-field uniformity in neutron electric-dipole-moment experiments
doi: 10.1103/PhysRevA.99.042112
2019CI01 Phys.Rev. C 99, 014620 (2019) I.Ciepal, J.Kubos, K.Bodek, N.Kalantar-Nayestanaki, G.Khatri, St.Kistryn, B.Klos, A.Kozela, P.Kulessa, A.Lobejko, A.Magiera, J.Messchendorp, I.Mazumdar, W.Parol, D.Rozpedzik, I.Skwira-Chalot, E.Stephan, A.Wilczek, B.Wloch, A.Wronska, J.Zejma Investigation of the cross section for dd elastic scattering and dd → n 3He reactions at 160 MeV NUCLEAR REACTIONS 2H(d, d), (d, 3He), E=160 MeV; measured scattered deuterons and 3He ions, dd-coin, E-ΔE distributions, differential cross sections using the BINA detector Ball and a forward Wall composed of a three-plane multi-wire proportional chamber (MWPC) for charged particle detection at the superconducting cyclotron AGOR at KVI in Groningen; deduced Missing mass spectrum, energy distribution of the elastically scattered deuterons. Comparison with previous experimental data, and with theoretical calculations based on singles scattering approximation (SSA) for the three-cluster breakup and for elastic scattering.
doi: 10.1103/PhysRevC.99.014620
2019CI03 Few-Body Systems 60, 44 (2019) I.Ciepal, K.Bodek, N.Kalantar-Nayestanaki, G.Khatri, St.Kistryn, B.Klos, A.Kozela, J.Kubos, P.Kulessa, A.Lobejko, A.Magiera, I.Mazumdar, J.Messchendorp, W.Parol, D.Rozpedzik, I.Skwira-Chalot, E.Stephan, A.Wilczek, B.Wloch, A.Wronska, J.Zejma Studies of Deuteron Breakup Reactions in Deuteron-Deuteron Collisions at 160 MeV with BINA NUCLEAR REACTIONS 2H(d, X)1H, E=160 MEV; measured reaction products, Ep, Ip; deduced σ(θ).
doi: 10.1007/s00601-019-1510-3
2019CI05 Phys.Rev. C 100, 024003 (2019) I.Ciepal, G.Khatri, K.Bodek, A.Deltuva, N.Kalantar-Nayestanaki, St.Kistryn, B.Klos, A.Kozela, J.Kubos, P.Kulessa, A.Lobejko, A.Magiera, J.Messchendorp, I.Mazumdar, W.Parol, R.Ramazani-Sharifabadi, D.Rozpedzik, I.Skwira-Chalot, E.Stephan, A.Wilczek, B.Wloch, A.Wronska, J.Zejma Three-body breakup in deuteron-deuteron collisions at 160 MeV including quasifree scattering NUCLEAR REACTIONS 2H(d, pd), E=160 MeV; measured reaction products, Ep, E(d), E(3He), pd-coin; deduced differential σ(θ), reconstructed neutron momentum distributions; compared results to single-scattering approximation (SSA) calculations for three-cluster breakup in deuteron-deuteron collisions. Experiment at KVI in Groningen, Netherlands using the BINA spectrometer.
doi: 10.1103/PhysRevC.100.024003
2018HA13 Rev.Mod.Phys. 90, 015008 (2018) L.Hayen, N.Severijns, K.Bodek, D.Rozpedzik, X.Mougeot High precision analytical description of the allowed β spectrum shape NUCLEAR STRUCTURE 14C, 14N, 25Na, 25Mg, 35S, 35Cl, 45Ca, 45Sc, 61Cr, 61Mn, 64Co, 64Ni, 100Nb, 100Mo, 104Nb, 104Mo, 121Sn, 121Sb; calculated weak charge radii. Comparison with available data.
doi: 10.1103/RevModPhys.90.015008
2018PE08 Acta Phys.Pol. B49, 261 (2018) M.Perkowski, K.Bodek, L.De Keukeleere, L.Hayen, A.Kozela, K.Lojek, D.Rozpedzik, N.Severijns Initial Tests of MiniBETA Spectrometer Performance
doi: 10.5506/aphyspolb.49.261
2015AF03 Phys.Rev.Lett. 115, 162502 (2015) S.Afach, N.J.Ayres, G.Ban, G.Bison, K.Bodek, Z.Chowdhuri, M.Daum, M.Fertl, B.Franke, W.C.Griffith, Z.D.Grujic, P.G.Harris, W.Heil, V.Helaine, M.Kasprzak, Y.Kermaidic, K.Kirch, P.Knowles, H.-C.Koch, S.Komposch, A.Kozela, J.Krempel, B.Lauss, T.Lefort, Y.Lemiere, A.Mtchedlishvili, M.Musgrave, O.Naviliat-Cuncic, J.M.Pendlebury, F.M.Piegsa, G.Pignol, C.Plonka-Spehr, P.N.Prashanth, G.Quemener, M.Rawlik, D.Rebreyend, D.Ries, S.Roccia, D.Rozpedzik, P.Schmidt-Wellenburg, N.Severijns, J.A.Thorne, A.Weis, E.Wursten, G.Wyszynski, J.Zejma, J.Zenner, G.Zsigmond Observation of Gravitationally Induced Vertical Striation of Polarized Ultracold Neutrons by Spin-Echo Spectroscopy
doi: 10.1103/PhysRevLett.115.162502
2015AF05 Eur.Phys.J. A 51, 143 (2015) S.Afach, G.Ban, G.Bison, K.Bodek, Z.Chowdhuri, M.Daum, M.Fertl, B.Franke, P.Geltenbort, Z.D.Grujic, L.Hayen, V.Helaine, R.Henneck, M.Kasprzak, Y.Kermaidic, K.Kirch, S.Komposch, A.Kozela, J.Krempel, B.Lauss, T.Lefort, Y.Lemiere, A.Mtchedlishvili, O.Naviliat-Cuncic, F.M.Piegsa, G.Pignol, P.N.Prashanth, G.Quemener, M.Rawlik, D.Ries, D.Rebreyend, S.Roccia, D.Rozpedzik, P.Schmidt-Wellenburg, N.Severijns, A.Weis, E.Wursten, G.Wyszynski, J.Zejma, G.Zsigmond A device for simultaneous spin analysis of ultracold neutrons
doi: 10.1140/epja/i2015-15143-7
2014KH07 Few-Body Systems 55, 1035 (2014) G.Khatri, I.Ciepal, K.Bodek, N.Kalantar-Nayestanaki, St.Kistryn, B.Klos, A.Kozela, A.Magiera, I.Mazumdar, J.Messchendorp, W.Parol, I.Skwira-Chalot, E.Stephan, D.Rozpedzik, A.Wronska, J.Zejma Few-Nucleon System Dynamics Studied via Deuteron-Deuteron Breakup Reactions at 160 MeV
doi: 10.1007/s00601-013-0787-x
2014PA19 Acta Phys.Pol. B45, 527 (2014) W.Parol, I.Ciepal, K.Bodek, St.Kistryn, G.Khatri, A.Magiera, D.Rozpedzik, A.Wronska, J.Zejma, B.Klos, E.Stephan, A.Kozela, P.Kulessa, N.Kalantar-Nayestanaki, J.Messchendorp, I.Mazumdar, I.Skwira-Chalot Investigation of Three Nucleon Force Effects in Deuteron-Proton Breakup Reaction NUCLEAR REACTIONS 1H(d, 2p), E=80 MeV/nucleon; measured reaction products, Ep, Ip; deduced σ(θ).
doi: 10.5506/APhysPolB.45.527
2011RO19 Phys.Rev. C 83, 064004 (2011) D.Rozpedzik, J.Golak, S.Kolling, E.Epelbaum, R.Skibinski, H.Witala, H.Krebs Signatures of the chiral two-pion exchange electromagnetic currents in the 2H and 3He photodisintegration reactions NUCLEAR REACTIONS 2H(γ, n)p, E=10, 30, 60 MeV; calculated unpolarized differential cross section, total σ(E), photon and proton analyzing powers, deuteron tensor analyzing powers. 3He(γ, p)np, E=20, 20.5, 50 MeV; calculated differential cross sections, analyzing powers for photons, spin correlation coefficients. Long-range two-pion exchange (TPE) contributions in the framework of Chiral effective field theory (ChEFT) using five different parameterization of the next-to-next-to leading order (N2LO) nucleon-nucleon (NN) potential. Comparison with experimental data.
doi: 10.1103/PhysRevC.83.064004
2010GO03 Phys.Rev. C 81, 034006 (2010) J.Golak, W.Glockle, R.Skibinski, H.Witala, D.Rozpedzik, K.Topolnicki, I.Fachruddin, Ch.Elster, A.Nogga Two-nucleon systems in three dimensions NUCLEAR REACTIONS 1n(n, n'), 1n(p, p'), E=13, 150, 300 MeV; calculated σ, σ(θ) and other observables using chiral next-to-next leading order (NNLO) nucleon-nucleon force potential, and Bonn B potential.
doi: 10.1103/PhysRevC.81.034006
2010GO17 Eur.Phys.J. A 43, 241 (2010) J.Golak, D.Rozpedzik, R.Skibinski, K.Topolnicki, H.Witala, W.Glockle, A.Nogga, E.Epelbaum, H.Kamada, Ch.Elster, I.Fachruddin A new way to perform partial-wave decompositions of few-nucleon forces
doi: 10.1140/epja/i2009-10903-6
2006RO42 Acta Phys.Pol. B37, 2889 (2006) D.Rozpedzik, J.Golak, R.Skibinski, H.Witala, W.Glockle, E.Epelbaum, A.Nogga, H.Kamada A first estimation of chiral four-nucleon force effects in 4He NUCLEAR STRUCTURE 4He; calculated four-nucleon force effects.
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