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NSR database version of April 25, 2024.

Search: Author = M.Krticka

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2024AM02      Phys.Rev.Lett. 132, 122701 (2024)

S.Amaducci, N.Colonna, L.Cosentino, S.Cristallo, P.Finocchiaro, M.Krticka, C.Massimi, M.Mastromarco, A.Mazzone, E.A.Maugeri, A.Mengoni, I.U.Roederer, O.Straniero, S.Valenta, D.Vescovi, O.Aberle, V.Alcayne, J.Andrzejewski, L.Audouin, V.Babiano-Suarez, M.Bacak, M.Barbagallo, S.Bennett, E.Berthoumieux, J.Billowes, D.Bosnar, A.Brown, M.Busso, M.Caamano, L.Caballero-Ontanaya, F.Calvino, M.Calviani, D.Cano-Ott, A.Casanovas, F.Cerutti, E.Chiaveri, G.Cortes, M.A.Cortes-Giraldo, L.A.Damone, P.J.Davies, M.Diakaki, M.Dietz, C.Domingo-Pardo, R.Dressler, Q.Ducasse, E.Dupont, I.Duran, Z.Eleme, B.Fernandez-Dominguez, A.Ferrari, V.Furman, K.Gobel, R.Garg, A.Gawlik-Ramiega, S.Gilardoni, I.F.Goncalves, E.Gonzalez-Romero, C.Guerrero, F.Gunsing, H.Harada, S.Heinitz, J.Heyse, D.G.Jenkins, A.Junghans, F.Kappeler, Y.Kadi, A.Kimura, I.Knapova, M.Kokkoris, Y.Kopatch, D.Kurtulgil, I.Ladarescu, C.Lederer-Woods, H.Leeb, J.Lerendegui-Marco, S.J.Lonsdale, D.Macina, A.Manna, T.Martinez, A.Masi, P.Mastinu, E.Mendoza, V.Michalopoulou, P.M.Milazzo, F.Mingrone, J.Moreno-Soto, A.Musumarra, A.Negret, R.Nolte, F.Ogallar, A.Oprea, N.Patronis, A.Pavlik, J.Perkowski, C.Petrone, L.Piersanti, E.Pirovano, I.Porras, J.Praena, J.M.Quesada, D.Ramos-Doval, T.Rauscher, R.Reifarth, D.Rochman, C.Rubbia, M.Sabate-Gilarte, A.Saxena, P.Schillebeeckx, D.Schumann, A.Sekhar, A.G.Smith, N.V.Sosnin, P.Sprung, A.Stamatopoulos, G.Tagliente, J.L.Tain, A.Tarifeno-Saldivia, L.Tassan-Got, Th.Thomas, P.Torres-Sanchez, A.Tsinganis, J.Ulrich, S.Urlass, G.Vannini, V.Variale, P.Vaz, A.Ventura, V.Vlachoudis, R.Vlastou, A.Wallner, P.J.Woods, T.Wright, P.Zugec

Measurement of the ¹⁴⁰Ce(n, γ) Cross Section at n_TOF and Its Astrophysical Implications for the Chemical Evolution of the Universe

NUCLEAR REACTIONS ¹⁴⁰Ce(n, γ), E<200 keV; measured reaction products, En, In, Eγ, Iγ; deduced Maxwellian averaged σ, yields, resonance parameters, impact on galactic abundances. Comparison with ENDF/B-VIII.0, JENDL-5 libraries, R-matrix code SAMMY. The neutron beam time-of-flight facility (n_TOF) at CERN.

doi: 10.1103/PhysRevLett.132.122701
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2024TA03      Eur.Phys.J. A 60, 21 (2024)

G.Tagliente, P.M.Milazzo, C.Paradela, S.Kopecky, D.Vescovi, G.Alaerts, L.A.Damone, J.Heyse, M.Krticka, P.Schillebeeckx, A.Mengoni, R.Wynants, S.Valenta, O.Aberle, V.Alcayne, S.Amaducci, J.Andrzejewski, L.Audouin, V.Babiano-Suarez, M.Bacak, M.Barbagallo, V.Becares, F.Becvar, G.Bellia, E.Berthoumieux, J.Billowes, D.Bosnar, A.S.Brown, M.Busso, M.Caamano, L.Caballero, M.Calviani, F.Calvino, D.Cano-Ott, A.Casanovas, F.Cerutti, Y.H.Chen, E.Chiaveri, N.Colonna, G.P.Cortes, M.A.Cortes-Giraldo, L.Cosentino, S.Cristallo, M.Diakaki, M.Dietz, C.Domingo-Pardo, R.Dressler, E.Dupont, I.Duran, Z.Eleme, B.Fernandez-Domingez, A.Ferrari, I.Ferro-Goncalves, P.Finocchiaro, V.Furman, R.Garg, A.Gawlik, S.Gilardoni, T.Glodariu, K.Gobel, E.Gonzalez-Romero, C.Guerrero, F.Gunsing, S.Heinitz, D.G.Jenkins, E.Jericha, Y.Kadi, F.Kappeler, A.Kimura, N.Kivel, M.Kokkoris, Y.Kopatch, D.Kurtulgil, I.Ladarescu, A.C.Larsen, C.Lederer-Woods, J.Lerendegui-Marco, S.Lo Meo, S.J.Lonsdale, M.Lugaro, D.Macina, A.Manna, T.Martinez, A.Masi, C.Massimi, P.F.Mastinu, M.Mastromarco, F.Matteucci, E.Maugeri, A.Mazzone, E.Mendoza, V.Michalopoulou, F.Mingrone, A.Musumarra, A.Negret, R.Nolte, F.Ogallar, A.Oprea, N.Patronis, A.Pavlik, J.Perkowski, L.Piersanti, I.Porras, J.Praena, J.M.Quesada, D.Radeck, D.Ramos Doval, R.Reifarth, D.Rochman, C.Rubbia, M.Sabate-Gilarte, A.Saxena, D.Schumann, A.G.Smith, M.Spelta, N.Sosnin, A.Stamatopoulos, J.L.Tain, Z.Talip, A.E.Tarifeno-Saldivia, L.Tassan-Got, P.Torres-Sanchez, A.Tsinganis, J.Ulrich, S.Urlass, G.Vannini, V.Variale, P.Vaz, A.Ventura, V.Vlachoudis, R.Vlastou, A.Wallner, P.J.Woods, T.J.Wright, P.Zugec

High-resolution cross section measurements for neutron interactions on ⁸⁹Y with incident neutron energies up to 95 keV

NUCLEAR REACTIONS ⁸⁹Y(n, X), (n, γ), E<95 keV; measured reaction products, En, In, TOF; deduced yields, resonance parameters, Maxwellian-averaged σ, capture kernel. Comparison with ENDF/B-VIII.0, JENDL-5, EXFOR libraries, Atlas of Neutron Resonances, KADONIS. The CERN n_TOF facility, GELINA at JRC-Geel.

doi: 10.1140/epja/s10050-024-01243-4
Citations: PlumX Metrics

2024WR01      Eur.Phys.J. A 60, (2024)

T.Wright, A.G.Smith, N.V.Sosnin, S.A.Bennett, P.J.Davies, A.V.Popescu, J.A.Ryan, A.Sekhar, S.Warren, O.Aberle, S.Amaducci, J.Andrzejewski, L.Audouin, M.Bacak, J.Balibrea, M.Barbagallo, F.Becvar, E.Berthoumieux, J.Billowes, D.Bosnar, A.Brown, M.Caamano, F.Calvino, M.Calviani, D.Cano-Ott, R.Cardella, A.Casanovas, F.Cerutti, Y.H.Chen, E.Chiaveri, N.Colonna, G.Cortes, M.A.Cortes-Giraldo, L.Cosentino, L.A.Damone, M.Diakaki, C.Domingo-Pardo, R.Dressler, E.Dupont, I.Duran, B.Fernandez-Dominguez, A.Ferrari, P.Ferreira, P.Finocchiaro, V.Furman, K.Gobel, A.R.Garcia, A.Gawlik-Ramiega, S.Gilardoni, T.Glodariu, I.F.Goncalves, E.Gonzalez-Romero, E.Griesmayer, C.Guerrero, F.Gunsing, H.Harada, S.Heinitz, J.Heyse, D.G.Jenkins, E.Jericha, F.Kappeler, Y.Kadi, A.Kalamara, P.Kavrigin, A.Kimura, N.Kivel, M.Kokkoris, M.Krticka, D.Kurtulgil, E.Leal-Cidoncha, C.Lederer-Woods, H.Leeb, J.Lerendegui-Marco, S.L.Meo, S.J.Lonsdale, D.Macina, A.Manna, J.Marganiec, T.Martinez, A.Masi, C.Massimi, P.Mastinu, M.Mastromarco, E.A.Maugeri, A.Mazzone, E.Mendoza, A.Mengoni, P.M.Milazzo, F.Mingrone, A.Musumarra, A.Negret, R.Nolte, A.Oprea, N.Patronis, A.Pavlik, J.Perkowski, I.Porras, J.Praena, J.M.Quesada, D.Radeck, T.Rauscher, R.Reifarth, C.Rubbia, M.Sabate-Gilarte, A.Saxena, P.Schillebeeckx, D.Schumann, P.Sedyshev, A.Stamatopoulos, G.Tagliente, J.L.Tain, A.Tarifeno-Saldivia, L.Tassan-Got, S.Valenta, G.Vannini, V.Variale, P.Vaz, A.Ventura, V.Vlachoudis, R.Vlastou, A.Wallner, C.Weiss, P.J.Woods, P.Zugec

Measurement of the prompt fission γ-rays from slow neutron-induced fission of ²³⁵U with STEFF

NUCLEAR REACTIONS ²³⁵U(n, F), E; measured reaction products, Eγ, Iγ; deduced prompt-fission γ-ray energies and multiplicities. Comparison with EXFOR and ENDF/B-VIII.0 libraries. STEFF 2E2ν device installed in the second experimental area (EAR2) of the neutron time-of-flight facility n_TOF at CERN.

doi: 10.1140/epja/s10050-024-01277-8
Citations: PlumX Metrics

2023ER01      Eur.Phys.J. A 59, 69 (2023)

P.Erbacher, T.Heftrich, A.Endres, J.Glorius, L.Netterdon, D.Just, K.Gobel, M.Krticka, R.Reifarth, K.Sonnabend, B.Thomas, M.Weigand, A.Zilges

Measurement of total and partial cross sections of the ⁹⁰Zr(p, γ)⁹¹Nb reaction with in-beam γ-ray spectroscopy

NUCLEAR REACTIONS ⁹⁰Zr(p, γ), E=2.71-5.1 MeV; measured reaction products, Eγ, Iγ; deduced σ. Comparison with available data. HORUS (High efficiency Observatory for γ-Ray Unique Spectroscopy) detector array at the University of Cologne, Germany.

doi: 10.1140/epja/s10050-023-00984-y
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2023FI01      Eur.Phys.J. A 59, 36 (2023)

S.Fiebiger, B.Baramsai, A.Couture, M.Krticka, S.Mosby, J.O'Donnell, R.Reifarth, G.Rusev, J.Ullmann, M.Weigand, C.Wolf

Neutron capture cross section of ⁸³Kr

NUCLEAR REACTIONS ⁸³Kr(n, γ), (n, X), E<500 keV; measured reaction products, En, In, TOF; deduced σ, MACS. Comparison with available data. The DANCE array at the Los Alamos National Laboratory.

doi: 10.1140/epja/s10050-023-00945-5
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2023KN03      Phys.Rev. C 107, 044313 (2023)

I.Knapova, A.Couture, C.Fry, J.Kvasil, M.Krticka, V.O.Nesterenko, J.M.O'Donnell, C.J.Prokop, G.Rusev, J.L.Ullmann, S.Valenta

Photon strength functions, level densities, and isomeric ratio in ¹⁶⁸Er from the radiative neutron capture measured at the DANCE facility

NUCLEAR REACTIONS ¹⁶⁸Er(n, γ), E=15-350 eV; measured neutron Time-of-Flight, Eγ, Iγ, γγ-coin, total γ-sum energy, multistep γ-cascade spectra; deduced γ- multiplicity, isomeric ratios, resonances, total radiative width of s-wave resonances. ¹⁶⁸Er; deduced isomer levels, T_1/2, nuclear level density (NLD), photon strength functions (PSFs), total B(M1) strength. Comparison to experimental data obtained by Oslo method and in NRF experiments. Confirmed scissor mode resonance-like structure in the M1 PSF with its centroid between 3.1 and 3.3 MeV and a width of about 1 MeV. Analysis of multistep cascade fluctuations indicate possible invalidity of the assumed Porter-Thomas distribution of the primary transition intensities. Comparison to TALYS and DICEBOX simulations. Highly segmented γ-ray calorimeter Detector for Advanced Neutron Capture Experiments DANCE (160 BaF₂ scintillation crystals) at at the moderated spallation neutron source LANSCE (Los Alamos Neutron Science Center).

doi: 10.1103/PhysRevC.107.044313
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2022KN01      Phys.Rev. C 106, 034607 (2022)

I.Knapova, S.Valenta, B.Baramsai, T.A.Bredeweg, A.Couture, C.Fry, M.Jandel, J.Kroll, M.Krticka, G.E.Mitchell, J.M.O'Donnell, C.J.Prokop, G.Rusev, J.L.Ullmann

Spin assignment and statistical properties of neutron resonances from ^{161, 163}Dy(n, γ) and ¹⁶⁷Er(n, γ) measured at the DANCE facility

NUCLEAR REACTIONS ^161,163Dy, ¹⁶⁷Er(n, γ), E=2-345 eV; measured Eγ, Iγ, γγ-coin, γ-sum energy; deduced J, resonances parameters, average resonance spacings. Checked the ratio of spacings for the two spins formed in s-wave resonance capture against predictions of different nuclear level density models. Comparison to other experimental data, Mughabghab "Atlas of Neutron Resonances" evaluation and TALYS calculations. Highly segmented γ-ray calorimeter Detector for Advanced Neutron Capture Experiments (DANCE) consisting of 160 BaF² crystals the Los Alamos Neutron Science Center.

doi: 10.1103/PhysRevC.106.034607
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2022LA09      Phys.Rev. C 106, 025802 (2022)

A.Laminack, J.C.Blackmon, A.Couture, J.P.Greene, M.Krticka, K.T.Macon, S.Mosby, C.Prokop, J.L.Ullmann, S.Valenta

Measurement of neutron-capture cross sections of ^{70, 72}Ge using the DANCE facility

NUCLEAR REACTIONS ^70,72Ge(n, γ), E=0.000001-1 MeV; measured Eγ, Iγ, γ sum energy; deduced neutron capture σ(E), Maxwellian averaged σ(E). Comparison to other experimental results and evaluated data from ENDF/B-VIII.0, KADoNiS-v1.0. Presented analysis of the impact of measured σ on stellar nucleosynthesis abundances.Detector for Advanced Neutron Capture Experiments (DANCE) consisting of 160 BaF₂ detectors combined into calorimeter at Los Alamos Neutron Science Center (LANSCE, LANL).

doi: 10.1103/PhysRevC.106.025802
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Data from this article have been entered in the EXFOR database. For more information, access X4 dataset14791.

2021BA30      Eur.Phys.J. A 57, 197 (2021)

V.Babiano-Suarez, J.Lerendegui-Marco, J.Balibrea-Correa, L.Caballero, D.Calvo, I.Ladarescu, D.Real, C.Domingo-Pardo, F.Calvino, A.Casanovas, A.Tarifeno-Saldivia, V.Alcayne, C.Guerrero, M.A.Millan-Callado, T.Rodriguez-Gonzalez, M.Barbagallo, O.Aberle, S.Amaducci, J.Andrzejewski, L.Audouin, M.Bacak, S.Bennett, E.Berthoumieux, J.Billowes, D.Bosnar, A.Brown, M.Busso, M.Caamano, M.Calviani, D.Cano-Ott, F.Cerutti, E.Chiaveri, N.Colonna, G.Cortes, M.A.Cortes-Giraldo, L.Cosentino, S.Cristallo, L.A.Damone, P.J.Davies, M.Diakaki, M.Dietz, R.Dressler, Q.Ducasse, E.Dupont, I.Duran, Z.Eleme, B.Fernandez-Dominguez, A.Ferrari, P.Finocchiaro, V.Furman, K.Gobel, R.Garg, A.Gawlik, S.Gilardoni, I.F.Goncalves, E.Gonzalez-Romero, F.Gunsing, H.Harada, S.Heinitz, J.Heyse, D.G.Jenkins, A.Junghans, F.Kappeler, Y.Kadi, A.Kimura, I.Knapova, M.Kokkoris, Y.Kopatch, M.Krticka, D.Kurtulgil, C.Lederer-Woods, H.Leeb, S.J.Lonsdale, D.Macina, A.Manna, T.Martinez, A.Masi, C.Massimi, P.Mastinu, M.Mastromarco, E.A.Maugeri, A.Mazzone, E.Mendoza, A.Mengoni, V.Michalopoulou, P.M.Milazzo, F.Mingrone, J.Moreno-Soto, A.Musumarra, A.Negret, F.Ogallar, A.Oprea, N.Patronis, A.Pavlik, J.Perkowski, L.Persanti, C.Petrone, E.Pirovano, I.Porras, J.Praena, J.M.Quesada, D.Ramos Doval, T.Rauscher, R.Reifarth, D.Rochman, C.Rubbia, M.Sabate-Gilarte, A.Saxena, P.Schillebeeckx, D.Schumann, A.Sekhar, A.G.Smith, N.V.Sosnin, P.Sprung, A.Stamatopoulos, G.Tagliente, J.L.Tain, L.Tassan-Got, Th.Thomas, P.Torres-Sanchez, A.Tsinganis, J.Ulrich, S.Urlass, S.Valenta, G.Vannini, V.Variale, P.Vaz, A.Ventura, D.Vescovi, V.Vlachoudis, R.Vlastou, A.Wallner, P.J.Woods, T.Wright, P.Zugec

Imaging neutron capture cross sections: i-TED proof-of-concept and future prospects based on Machine-Learning techniques

NUCLEAR REACTIONS ¹⁹⁷Au, ⁵⁶Fe(n, γ), E<200 KeV; measured reaction products, Eγ, Iγ, En, In, TOF; deduced neutron spectra, signal-to-background ratio in (n, γ) σ measurements using Machine-Learning techniques.

doi: 10.1140/epja/s10050-021-00507-7
Citations: PlumX Metrics

2020KA09      Nucl.Data Sheets 163, 109 (2020)

T.Kawano, Y.S.Cho, P.Dimitriou, D.Filipescu, N.Iwamoto, V.Plujko, X.Tao, H.Utsunomiya, V.Varlamov, R.Xu, R.Capote, I.Gheorghe, O.Gorbachenko, Y.L.Jin, T.Renstrom, M.Sin, K.Stopani, Y.Tian, G.M.Tveten, J.M.Wang, T.Belgya, R.Firestone, S.Goriely, J.Kopecky, M.Krticka, R.Schwengner, S.Siem, M.Wiedeking

IAEA Photonuclear Data Library 2019

doi: 10.1016/j.nds.2019.12.002
Citations: PlumX Metrics

2020MA14      Phys.Lett. B 804, 135405 (2020)

A.Mazzone, S.Cristallo, O.Aberle, G.Alaerts, V.Alcayne, S.Amaducci, J.Andrzejewski, L.Audouin, V.Babiano-Suarez, M.Bacak, M.Barbagallo, V.Becares, F.Becvar, G.Bellia, E.Berthoumieux, J.Billowes, D.Bosnar, A.S.Brown, M.Busso, M.Caamano, L.Caballero, M.Calviani, F.Calvino, D.Cano-Ott, A.Casanovas, D.M.Castelluccio, F.Cerutti, Y.H.Chen, E.Chiaveri, G.Clai, N.Colonna, G.P.Cortes, M.A.Cortes-Giraldo, L.Cosentino, L.A.Damone, M.Diakaki, M.Dietz, C.Domingo-Pardo, R.Dressler, E.Dupont, I.Duran, Z.Eleme, B.Fernandez-Domingez, A.Ferrari, I.Ferro-Goncalves, P.Finocchiaro, V.Furman, R.Garg, A.Gawlik, S.Gilardoni, T.Glodariu, K.Gobel, E.Gonzalez-Romero, C.Guerrero, F.Gunsing, S.Heinitz, J.Heyse, D.G.Jenkins, E.Jericha, Y.Kadi, F.Kappeler, A.Kimura, N.Kivel, M.Kokkoris, Y.Kopatch, S.Kopecky, M.Krticka, D.Kurtulgil, I.Ladarescu, C.Lederer-Woods, J.Lerendegui-Marco, S.Lo Meo, S.-J.Lonsdale, D.Macina, A.Manna, T.Martinez, A.Masi, C.Massimi, P.F.Mastinu, M.Mastromarco, F.Matteucci, E.Maugeri, E.Mendoza, A.Mengoni, V.Michalopoulou, P.M.Milazzo, F.Mingrone, R.Mucciola, A.Musumarra, A.Negret, R.Nolte, F.Ogallar, A.Oprea, N.Patronis, A.Pavlik, J.Perkowski, L.Piersanti, I.Porras, J.Praena, J.M.Quesada, D.Radeck, D.Ramos Doval, R.Reifarth, D.Rochman, C.Rubbia, M.Sabate-Gilarte, A.Saxena, P.Schillebeeckx, D.Schumann, A.G.Smith, N.Sosnin, A.Stamatopoulos, G.Tagliente, J.L.Tain, Z.Talip, A.E.Tarifeno-Saldivia, L.Tassan-Got, P.Torres-Sanchez, A.Tsinganis, J.Ulrich, S.Urlass, S.Valenta, G.Vannini, V.Variale, P.Vaz, A.Ventura, D.Vescovi, V.Vlachoudis, R.Vlastou, A.Wallner, P.J.Woods, R.Wynants, T.J.Wright, P.Zugec

Measurement of the ¹⁵⁴Gd(n, γ) cross section and its astrophysical implications

NUCLEAR REACTIONS ¹⁵⁴Gd(n, γ), E=0.001-300 keV; measured reaction products, En, In, Eγ, Iγ; deduced capture yields, transmissions, capture σ. Comparison with ENDF/B-VIII library and KADoNiS.

doi: 10.1016/j.physletb.2020.135405
Citations: PlumX Metrics
Data from this article have been entered in the EXFOR database. For more information, access X4 dataset23459.

2020SI05      Phys.Rev. C 101, 024302 (2020)

N.Simbirtseva, M.Krticka, R.F.Casten, A.Couture, W.I.Furman, I.Knapova, J.M.O'Donnell, G.Rusev, J.L.Ullmann, S.Valenta

Examination of photon strength functions and nuclear level density in ¹⁹⁶Pt from the γ-ray spectra measured at the DANCE facility

NUCLEAR REACTIONS ¹⁹⁵Pt(n, γ), E=9-1000 eV; measured E(n) by time of flight, Eγ, Iγ, γγ-coin, multi-step γ-ray cascades (MSCs) using the segmented γ-ray Detector for Advanced Neutron Capture (DANCE) of 160 BaF₂ crystals at the Los Alamos Neutron Science Center (LANSC). ¹⁹⁶Pt; deduced nuclear level density (NLD) and photon strength functions (PSFs); confirmed E1 PSF resonance at ≈5.6 MeV. Comparison of experimental MSC spectra with previous experimental data from Oslo and others, and with constant-temperature (CT) and back-shifted Fermi-gas (BSFG) model calculations.

doi: 10.1103/PhysRevC.101.024302
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2019GO30      Eur.Phys.J. A 55, 172 (2019)

S.Goriely, P.Dimitriou, M.Wiedeking, T.Belgya, R.Firestone, J.Kopecky, M.Krticka, V.Plujko, R.Schwengner, S.Siem, H.Utsunomiya, S.Hilaire, S.Peru, Y.S.Cho, D.M.Filipescu, N.Iwamoto, T.Kawano, V.Varlamov, R.Xu

Reference database for photon strength functions

doi: 10.1140/epja/i2019-12840-1
Citations: PlumX Metrics

2019HU07      Phys.Rev. C 99, 024310 (2019)

A.M.Hurst, A.Sweet, B.L.Goldblum, R.B.Firestone, M.S.Basunia, L.A.Bernstein, Zs.Revay, L.Szentmiklosi, T.Belgya, J.E.Escher, I.Harsanyi, M.Krticka, B.W.Sleaford, J.Vujic

Radiative-capture cross sections for the ¹³⁹La (n, γ) reaction using thermal neutrons and structural properties of ¹⁴⁰La

NUCLEAR REACTIONS ¹³⁹La(n, γ), E=thermal and cold; measured Eγ, Iγ, at the Prompt Gamma Activation Analysis facility of Budapest Research Reactor. ¹⁴⁰La; deduced levels, J, π, S(n) for ¹⁴⁰La, partial γ-ray production σ(γ) relative to those for ³⁵Cl(n, γ), total radiative thermal neutron capture σ. Monte Carlo statistical-decay code DICEBOX calculations. Comparison with previous experimental data in the ENSDF database and other literature.

doi: 10.1103/PhysRevC.99.024310
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Data from this article have been entered in the EXFOR database. For more information, access X4 dataset31795.

2019KR04      Phys.Rev. C 99, 044308 (2019)

M.Krticka, S.Goriely, S.Hilaire, S.Peru, S.Valenta

Constraints on the dipole photon strength functions from experimental multistep cascade spectra

NUCLEAR STRUCTURE ^96,98Mo, ^112,114Cd, ^{153,155,156,157,158,159}Gd, ^162,164Dy, ^235,237,239U; analyzed experimental data for multistep γ cascade (MSC) spectra from DANCE detector at LANSCE-LANL; deduced parameter for the zero-ϵ_γ limit of the M1 photo-strength function (PSF) in the D1M+QRPA+0lim model. ^96,98Mo, ¹¹²Cd, ^156,157Gd, ^162,164Dy, ^235,239U; calculated sum energy spectra, multiplicity distributions (MD), multistep γ cascade spectra (MCS) from decay of resonances populated in neutron-capture using axially deformed HFB plus quasiparticle random phase approximation (QRPA) with D1M Gogny interaction and a phenomenological low-energy contribution. Comparison with experimental data. Z=10-110, N=10-230; calculated Maxwellian-averaged cross sections for (n, γ) at a temperature of 10⁹K using D1M+QRPA+0lim formalism and compared with GLO+SF PSF recommended in RIPL-3.

doi: 10.1103/PhysRevC.99.044308
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2019LE04      Phys.Lett. B 790, 458 (2019); Erratum Phys.Lett. B 840, 137835 (2023)

C.Lederer-Woods, U.Battino, P.Ferreira, A.Gawlik, C.Guerrero, F.Gunsing, S.Heinitz, J.Lerendegui-Marco, A.Mengoni, R.Reifarth, A.Tattersall, S.Valenta, C.Weiss, O.Aberle, J.Andrzejewski, L.Audouin, V.Becares, M.Bacak, J.Balibrea, M.Barbagallo, S.Barros, F.Becvar, C.Beinrucker, F.Belloni, E.Berthoumieux, J.Billowes, D.Bosnar, M.Brugger, M.Caamano, F.Calvino, M.Calviani, D.Cano-Ott, F.Cerutti, E.Chiaveri, N.Colonna, G.Cortes, M.A.Cortes-Giraldo, L.Cosentino, L.A.Damone, K.Deo, M.Diakaki, M.Dietz, C.Domingo-Pardo, R.Dressler, E.Dupont, I.Duran, B.Fernandez-Dominguez, A.Ferrari, P.Finocchiaro, R.J.W.Frost, V.Furman, K.Gobel, A.R.Garcia, I.Gheorghe, T.Glodariu, I.F.Goncalves, E.Gonzalez-Romero, A.Goverdovski, E.Griesmayer, H.Harada, T.Heftrich, A.Hernandez-Prieto, J.Heyse, D.G.Jenkins, E.Jericha, F.Kappeler, Y.Kadi, T.Katabuchi, P.Kavrigin, V.Ketlerov, V.Khryachkov, A.Kimura, N.Kivel, I.Knapova, M.Kokkoris, M.Krticka, E.Leal-Cidoncha, H.Leeb, M.Licata, S.Lo Meo, R.Losito, D.Macina, J.Marganiec, T.Martinez, C.Massimi, P.Mastinu, M.Mastromarco, F.Matteucci, E.Mendoza, P.M.Milazzo, F.Mingrone, M.Mirea, S.Montesano, A.Musumarra, R.Nolte, F.R.Palomo-Pinto, C.Paradela, N.Patronis, A.Pavlik, J.Perkowski, J.I.Porras, J.Praena, J.M.Quesada, T.Rauscher, A.Riego-Perez, M.Robles, C.Rubbia, J.A.Ryan, M.Sabate-Gilarte, A.Saxena, P.Schillebeeckx, S.Schmidt, D.Schumann, P.Sedyshev, A.G.Smith, A.Stamatopoulos, S.V.Suryanarayana, G.Tagliente, J.L.Tain, A.Tarifeno-Saldivia, L.Tassan-Got, A.Tsinganis, G.Vannini, V.Variale, P.Vaz, A.Ventura, V.Vlachoudis, R.Vlastou, A.Wallner, S.Warren, M.Weigand, T.Wright, P.Zugec

Measurement of ⁷³Ge(n, γ) cross sections and implications for stellar nucleosynthesis

NUCLEAR REACTIONS ⁷³Ge(n, γ), E<300 keV; measured reaction products, En, In; deduced σ, resonance energies and capture kernels, astrophysical impact, Maxwellian-averaged σ for ground and excited states capture. The neutron time-of-flight facility n_TOF at CERN.

doi: 10.1016/j.physletb.2019.01.045
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2019PR03      Phys.Rev. C 99, 055809 (2019)

C.J.Prokop, A.Couture, S.Jones, S.Mosby, G.Rusev, J.Ullmann, M.Krticka

Measurement of the ⁶⁵Cu(n, γ) cross section using the Detector for Advanced Neutron Capture Experiments at LANL

NUCLEAR REACTIONS ⁶⁵Cu(n, γ), E=10 eV-1 MeV; measured E(n), I(n), Eγ, Iγ, nγ-coin, σ(E) using the DANCE detector at LANSCE; deduced Maxwellian averaged cross section, and final composition of supernovae ejecta using new reaction rate. Comparison with evaluated data in ENDF/B-VIII.0 library and KADoNiS v0.3 database.

doi: 10.1103/PhysRevC.99.055809
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2019WI03      Phys.Rev. C 99, 024318 (2019)

J.R.Winkelbauer, S.M.Mosby, A.Couture, H.Y.Lee, J.L.Ullmann, T.Kawano, G.Rusev, M.Jandel, M.Krticka

Statistical neutron capture in the limit of low nuclear level density

NUCLEAR REACTIONS ⁹⁶Zr, ²⁰⁸Pb(n, γ), E=thermal, 301, 3818, 4133, 5443, 5971, 9004, 17779 eV; measured Eγ, Iγ, γγ-coin, Spectra of γ-ray cascades using DANCE array at the LANSCE-LANL facility. ⁹⁷Zr; deduced photon strength function (γPSF), multiplicity distributions for resonances. Comparison with simulated γ spectra from DICEBOX calculations for the cascades from the capture state and neutron resonances, and with ENSDF/B-VII.1 evaluation. Maxwellian averaged cross section (MACS).

doi: 10.1103/PhysRevC.99.024318
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2018DA21      Phys.Rev. C 98, 064606 (2018)

S.J.Daugherty, J.B.Albert, L.J.Kaufman, M.Devlin, N.Fotiades, R.O.Nelson, M.Krticka

Neutron inelastic scattering measurements on ¹³⁶Xe at E_n = 0.7 to 100 MeV

NUCLEAR REACTIONS ¹³⁶Xe(n, n'), (n, 3n), (n, 5n), E=0.7-100 MeV; measured Eγ, Iγ, σ(E) using the GErmanium Array for Neutron Induced Excitations (GEANIE) for γ detection at the Los Alamos Neutron Science Center (LANSCE) Weapons Neutron Research (WNR) facility. ¹³⁶Xe; deduced levels. Novel calibration method proposed for double-beta decay detectors by observing prompt γ rays form (n, n'). Comparison with other experimental values, and with TALYS simulations.

doi: 10.1103/PhysRevC.98.064606
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2017FI03      Phys.Rev. C 95, 014328 (2017)

R.B.Firestone, T.Belgya, M.Krticka, F.Becvar, L.Szentmiklosi, I.Tomandl

Thermal neutron capture cross section for ⁵⁶Fe (n, γ)

NUCLEAR REACTIONS ⁵⁶Fe(n, γ), E=thermal and cold neutrons; measured Eγ, Iγ with Compton suppressed HPGe and guided cold neutron beam at the Budapest reactor facility, γγ-coin sum data at the Rez-Prague reactor. ⁵⁷Fe; deduced levels, J, π, S(n), γ-intensity balances, n-capture cross section, γ-ray cross sections. Comparison with previous experimental data, and with statistical model calculations using Monte Carlo computer code DICEBOX.

doi: 10.1103/PhysRevC.95.014328
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2017MA15      Phys.Lett. B 768, 1 (2017)

C.Massimi, S.Altstadt, J.Andrzejewski, L.Audouin, M.Barbagallo, V.Becares, F.Becvar, F.Belloni, E.Berthoumieux, J.Billowes, S.Bisterzo, D.Bosnar, M.Brugger, M.Calviani, F.Calvino, D.Cano-Ott, C.Carrapico, D.M.Castelluccio, F.Cerutti, E.Chiaveri, L.Cosentino, M.Chin, G.Clai, N.Colonna, G.Cortes, M.A.Cortes-Giraldo, S.Cristallo, M.Diakaki, C.Domingo-Pardo, I.Duran, R.Dressler, C.Eleftheriadis, A.Ferrari, P.Finocchiaro, K.Fraval, S.Ganesan, A.R.Garcia, G.Giubrone, I.F.Goncalves, E.Gonzalez-Romero, E.Griesmayer, C.Guerrero, F.Gunsing, A.Hernandez-Prieto, D.G.Jenkins, E.Jericha, Y.Kadi, F.Kappeler, D.Karadimos, N.Kivel, P.Koehler, M.Kokkoris, S.Kopecky, M.Krticka, J.Kroll, C.Lampoudis, C.Langer, E.Leal-Cidoncha, C.Lederer, H.Leeb, L.S.Leong, S.Lo Meo, R.Losito, A.Mallick, A.Manousos, J.Marganiec, T.Martinez, P.F.Mastinu, M.Mastromarco, E.Mendoza, A.Mengoni, P.M.Milazzo, F.Mingrone, M.Mirea, W.Mondelaers, A.Musumarra, C.Paradela, A.Pavlik, J.Perkowski, M.Pignatari, L.Piersanti, A.Plompen, J.Praena, J.M.Quesada, T.Rauscher, R.Reifarth, A.Riego, M.S.Robles, C.Rubbia, M.Sabate-Gilarte, R.Sarmento, A.Saxena, P.Schillebeeckx, S.Schmidt, D.Schumann, G.Tagliente, J.L.Tain, D.Tarrio, L.Tassan-Got, A.Tsinganis, S.Valenta, G.Vannini, I.Van Rijs, V.Variale, P.Vaz, A.Ventura, M.J.Vermeulen, V.Vlachoudis, R.Vlastou, A.Wallner, T.Ware, M.Weigand, C.Weiss, R.Wynants, T.Wright, P.Zugec

Neutron spectroscopy of ²⁶Mg states: Constraining the stellar neutron source ²²Ne(α, n)²⁵Mg

NUCLEAR REACTIONS ²⁵Mg(n, γ), (n, X), E<300 KeV; measured reaction products, En, In, Eγ, Iγ; deduced yields, σ, resonance parameters and corresponding excitation energies of the ²⁶Mg compound nucleus, Maxwellian-averaged cross sections, reaction rates for inverse reactions. R-matrix analysis of the experimental data.

doi: 10.1016/j.physletb.2017.02.025
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2017MU13      Phys.Rev. C 96, 024612 (2017)

M.R.Mumpower, T.Kawano, J.L.Ullmann, M.Krticka, T.M.Sprouse

Estimation of M1 scissors mode strength for deformed nuclei in the medium- to heavy-mass region by statistical Hauser-Feshbach model calculations

NUCLEAR REACTIONS ^{152,154,155,156,157,158}Gd(n, γ), E=1 keV-4.5 MeV; calculated capture σ(E) with and without M1 scissors mode strength, capture γ-ray spectra, and compared with available experimental data. A=90-200; calculated capture cross sections at 200 keV with and without M1 scissors mode strength, and compared with evaluated cross sections in ENDF/B-VII.1 and JENDL-4 libraries; deduced additional M1 strength for nuclei in the fission product region nuclei required to reproduce evaluated capture cross section. A=50-250; calculated average photon width Γ_γ and compared with values in RIPL-3 database. Z=10-100, N=10-180; evaluated M1 enhancement of neutron capture reaction rates at a temperature of 1.0 GK. A=100-250; deduced isotopic abundances with the inclusion of M1 enhancement in the neutron capture rates relevant to r-process simulations. Impact of M1 scissors mode on neutron capture cross sections. Hauser-Feshbach calculation with a simple Lorentzian form for the M1 scissors mode.

doi: 10.1103/PhysRevC.96.024612
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2017UL01      Phys.Rev. C 96, 024627 (2017), Erratum Phys.Rev. C 96, 019902 (2017)

J.L.Ullmann, T.Kawano, B.Baramsai, T.A.Bredeweg, A.Couture, R.C.Haight, M.Jandel, J.M.O'Donnell, R.S.Rundberg, D.J.Vieira, J.B.Wilhelmy, M.Krticka, J.A.Becker, A.Chyzh, C.Y.Wu, G.E.Mitchell

Constraining the calculation of ^{234, 236, 238}U (n, γ) cross sections with measurements of the γ-ray spectra at the DANCE facility

NUCLEAR REACTIONS ²³⁴U(n, γ), E=31, 77 eV; ²³⁶U(n, γ), E=44, 71 eV; ²³⁸U(n, γ), E=21, 36, 66, 102 eV; measured Eγ, Iγ for 1/2+ neutron-resonances using the Detector for Advanced Neutron Capture Experiments (DANCE) at Los Alamos Neutron Science Center (LANSC); deduced total radiation widths Γ_γ of s-wave 1/2+ resonances using different models of photon strength function (PSF) and nuclear level-density (NLD) parametrizations, and significant contribution to Γ_γ from a resonance structure at Eγ=2-3 MeV, identified with the M1 scissors mode; comparison of measured and summed γ spectra with calculations using the PSF and NLD parameters obtained from the Oslo method, from renormalized Oslo results, from systematics used in the CoH3 code, and from the MGLO and CoH3 models for the E1 strength. ^234,236,238U(n, γ), E=1-500 keV; calculated σ(E) and compared with previous experimental data listed in the EXFOR database, and with ENDFB/VII-1 evaluation.

doi: 10.1103/PhysRevC.96.024627
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2017VA25      Phys.Rev. C 96, 054315 (2017)

S.Valenta, B.Baramsai, T.A.Bredeweg, A.Couture, A.Chyzh, M.Jandel, J.Kroll, M.Krticka, G.E.Mitchell, J.M.O'Donnell, G.Rusev, J.L.Ullmann, C.L.Walker

Examination of photon strength functions for ^{162, 164}Dy from radiative capture of resonance neutrons

NUCLEAR REACTIONS ^161,163Dy(n, γ), E=10-40 s-wave neutrons; measured time-of-flight spectrum for neutrons, Eγ, Iγ using segmented γ-ray calorimeter Detector for Advanced Neutron Capture Experiments (DANCE), an array of BaF₂ scintillators at Los Alamos Neutron Science Center (LANSCE) spallation neutron source; deduced neutron resonances, cluster multiplicities, multistep cascade (MSC) spectra, E1 and M1 photon strength functions (PSFs) as function of γ-ray energy, total radiation widths, scissors mode, nuclear level density. Comparison with other experimental data, and with statistical model calculations.

doi: 10.1103/PhysRevC.96.054315
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2016AL19      Phys.Rev. C 94, 034617 (2016)

J.B.Albert, S.J.Daugherty, T.N.Johnson, T.O'Conner, L.J.Kaufman, A.Couture, J.L.Ullmann, M.Krticka

Measurement of neutron capture on ¹³⁶Xe

NUCLEAR REACTIONS ¹³⁶Xe(n, γ), E=0.01 eV to 1 MeV; measured prompt Eγ, Iγ, multistep cascade (MSC) spectra using DANCE Los Alamos Neutron Science Center; deduced relative and absolute cross sections, neutron resonance at 2.154 keV, capture cascade γ-ray emission intensities by DICEBOX simulations. Comparison of measured cross section with previous experimental results, and with evaluated data in ENDF-B/VII.1 and JENDL-4.0. Relevance to experiments on ¹³⁶Xe 0νββ decay and presence of ¹³⁷Xe contaminant in such experiments.

doi: 10.1103/PhysRevC.94.034617
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2016KR05      Phys.Rev. C 93, 054311 (2016)

M.Krticka, M.Wiedeking, F.Becvar, S.Valenta

Consistency of photon strength function models with data from the ⁹⁴Mo (d, pγγ) reaction

NUCLEAR REACTIONS ⁹⁴Mo(d, pγ)⁹⁵Mo, E=3-7 MeV; ⁹⁶Mo(n, γ), E=3-7 MeV; ⁹⁵Mo(γ, n), E=1-11 MeV; analyzed total radiation width of neutron resonances from DICEBOX simulations, photon-strength functions (PSFs) using back-shifted Fermi gas (BSFG) and constant-temperature (CT) nuclear level density (NLD) models; deduced PSFs below the neutron separation energy in the Mo region. Comparison between Oslo-type experiments or predictions of the generalized Lorentzian E1 model.

doi: 10.1103/PhysRevC.93.054311
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2016MA35      Phys.Rev. C 93, 054319 (2016)

D.A.Matters, A.G.Lerch, A.M.Hurst, L.Szentmiklosi, J.J.Carroll, B.Detwiler, Zs.Revay, J.W.McClory, S.R.McHale, R.B.Firestone, B.W.Sleaford, M.Krticka, T.Belgya

Investigation of ¹⁸⁶Re via radiative thermal-neutron capture on ¹⁸⁵Re

NUCLEAR REACTIONS ¹⁸⁵Re(n, γ), E=thermal and cold neutrons; measured Eγ, Iγ, σ(γ) using Prompt Gamma Activation Analysis (PGAA) facility at the Budapest Research Reactor. ¹⁸⁶Re; deduced levels, J, π, S(n), Γ₀, photon strength functions, total radiative thermal-neutron capture cross section. Statistical model calculations and analysis using DICEBOX code. Comparison with previous experimental data.

doi: 10.1103/PhysRevC.93.054319
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2016WI01      Phys.Rev. C 93, 024303 (2016)

M.Wiedeking, M.Krticka, L.A.Bernstein, J.M.Allmond, M.S.Basunia, D.L.Bleuel, J.T.Burke, B.H.Daub, P.Fallon, R.B.Firestone, B.L.Goldblum, R.Hatarik, P.T.Lake, A.C.Larsen, I.-Y.Lee, S.R.Lesher, S.Paschalis, M.Petri, L.Phair, N.D.Scielzo, A.Volya

γ-ray decay from neutron-bound and unbound states in ⁹⁵Mo and a novel technique for spin determination

NUCLEAR REACTIONS ⁹⁴Mo(d, p), E=5.5 MeV/nucleon; measured Ep, Eγ, Iγ, pγ-, pγγ-coin using STARS-LIBERACE detector array at LBNL, cyclotron facility. ⁹⁵Mo; deduced levels, J, π, γ-branching ratios, average γ-ray emission probabilities. Novel method for spin determination. Comparison with ENSDF evaluation, statistical gamma-ray cascade model calculations, and with shell-model calculations.

doi: 10.1103/PhysRevC.93.024303
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2015HU07      Phys.Rev. C 92, 034615 (2015)

A.M.Hurst, R.B.Firestone, L.Szentmiklosi, B.W.Sleaford, M.S.Basunia, T.Belgya, J.E.Escher, M.Krticka, Zs.Revay, N.C.Summers

Radiative thermal neutron-capture cross sections for the ¹⁸⁰W (n, γ) reaction and determination of the neutron-separation energy

NUCLEAR REACTIONS ¹⁸⁰W(n, γ), E=cold neutron beam; measured prompt Eγ, Iγ, partial γ-ray production σ, total radiative thermal neutron-capture σ, 365.6-keV, 5/2- isomer σ at Budapest Research Reactor. Enriched ¹⁸⁰W target. ¹⁸¹W; deduced levels, J, π, S(n). Analysis by Monte Carlo statistical-decay code using DICEBOX; deduced s-wave capture-state radiative widths with various models for level density and photon strength function. Comparison with previous experimental results and ENSDF evaluations.

doi: 10.1103/PhysRevC.92.034615
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2015VA20      Phys.Rev. C 92, 064321 (2015)

S.Valenta, F.Becvar, J.Kroll, M.Krticka, I.Tomandl

Two-step γ cascades following thermal neutron capture in ^{155, 157}Gd

NUCLEAR REACTIONS ^155,157Gd(n, γ), E=thermal; measured γγ-coin using a pair of HPGe detectors at LVR-15, Rez research reactor; deduced two-step cascades (TSCs). ^156,158Gd; deduced levels, J, π, photon strength functions as function of Eγ, comparison between experimental and simulated TSC spectra using DICEBOX analysis. Evidence for the scissors-mode (SM) enhancement of M1 transitions.

doi: 10.1103/PhysRevC.92.064321
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2015WA18      Phys.Rev. C 92, 014324 (2015)

C.L.Walker, M.Krticka, B.Baramsai, F.Becvar, T.A.Bredeweg, A.Chyzh, R.C.Haight, M.Jandel, J.Kroll, G.E.Mitchell, J.M.O'Donnell, R.S.Rundberg, J.L.Ullmann, S.Valenta, J.B.Wilhelmy

Measurement of the ⁹⁷Mo(n, γ) reaction with the DANCE γ calorimeter array

NUCLEAR REACTIONS ⁹⁷Mo(n, γ), E<1.7 eV. Measured Eγ, Iγ, multistep gamma cascades (MSCs) with the DANCE array of 160 BaF₂ detectors at the LANSCE-LANL facility. ⁹⁸Mo; deduced neutron resonances, J, π, neutron widths, photon-strength functions (PSFs), simulated total radiation width of resonances for all considered model combinations. Analysis using DICEBOX statistical computer code. ^93,95,99Mo, ⁹⁴Nb, ¹⁰⁰Ru; deduced photon-strength functions (PSFs) using averaged s-wave resonance spacings D₀ from literature. Comparison with statistical model calculations.

doi: 10.1103/PhysRevC.92.014324
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2015WE14      Phys.Rev. C 92, 045810 (2015)

M.Weigand, T.A.Bredeweg, A.Couture, K.Gobel, T.Heftrich, M.Jandel, F.Kappeler, C.Lederer, N.Kivel, G.Korschinek, M.Krticka, J.M.O'Donnell, J.Ostermoller, R.Plag, R.Reifarth, D.Schumann, J.L.Ullmann, A.Wallner

⁶³Ni(n, γ) cross sections measured with DANCE

NUCLEAR REACTIONS ⁶³Ni(n, γ), E=40 eV-500 keV; measured Eγ, Iγ, σ(E) using 4π BaF₂ array DANCE at LANSCE-LANL, neutron flux; deduced resonances, Maxwellian averaged cross sections (MACS), relative production of isotopes in the vicinity of ⁶³Ni and Ni to As elements for the s process. Comparison with KADoNiS database and experimental data from n_TOF collaboration.

doi: 10.1103/PhysRevC.92.045810
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2014BA32      Nucl.Data Sheets 119, 88 (2014)

M.S.Basunia, R.B.Firestone, Zs.Revay, H.D.Choi, T.Belgya, J.E.Escher, A.M.Hurst, M.Krticka, L.Szentmiklosi, B.Sleaford, N.C.Summers

Determination of the ¹⁵¹Eu(n, γ)^{152m1, g}Eu and ⁵³Eu(n, γ)¹⁵⁴Eu Reaction Cross Sections at Thermal Neutron Energy

NUCLEAR REACTIONS ^151,153Eu(n, γ), E=thermal; measured prompt Eγ, Iγ using Compton-suppressed HPGe and LEPS (low-energy photon detector); deduced level population, σ using DICEBOX. Compared with other data. Preliminary.

doi: 10.1016/j.nds.2014.08.025
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2014CH20      Nucl.Sci.Eng. 177, 219 (2014)

H.D.Choi, R.B.Firestone, M.S.Basunia, A.Hurst, B.Sleaford, N.Summers, J.E.Escher, Zs.Revay, L.Szentmiklosi, T.Belgya, M.Krticka

Radiative Capture Cross Sections of ^{155, 157}Gd for Thermal Neutrons

NUCLEAR REACTIONS ^155,157Gd(n, γ), E thermal; measured reaction products, Eγ, Iγ; deduced σ, average level spacing. Comparison with theoretical calculations, available data.

doi: 10.13182/NSE13-49
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2014FI14      Nucl.Data Sheets 119, 79 (2014)

R.B.Firestone, K.Abusaleem, M.S.Basunia, F.Becvar, T.Belgya, L.A.Bernstein, H.D.Choi, J.E.Escher, C.Genreith, A.M.Hurst, M.Krticka, P.R.Renne, Zs.Revay, A.M.Rogers, M.Rossbach, S.Siem, B.Sleaford, N.C.Summers, L.Szentmiklosi, K.van Bibber, M.Wiedeking

EGAF: Measurement and Analysis of Gamma-ray Cross Sections

COMPILATION Z=1-82(n, γ), E=thermal[two targets not included: He and Pm]; calculated, evaluated prompt γ energy spectra for activation analysis.

doi: 10.1016/j.nds.2014.08.024
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2014HU02      Phys.Rev. C 89, 014606 (2014)

A.M.Hurst, R.B.Firestone, B.W.Sleaford, N.C.Summers, Zs.Revay, L.Szentmiklosi, M.S.Basunia, T.Belgya, J.E.Escher, M.Krticka

Investigation of the tungsten isotopes via thermal neutron capture

NUCLEAR REACTIONS ^{182,183,184,186}W(n, γ), E AP 4.2 meV; measured Eγ, Iγ, radiative capture σ, prompt and delayed γ rays at Budapest Research Reactor facility. Enriched and natural tungsten targets. ^{183,184,186,187}W; deduced levels, J, π, S(n). Analysis by Monte Carlo statistical-decay using DICEBOX computer code. Comparison with previous experimental results and ENSDF evaluations.

RADIOACTIVITY ¹⁸⁷W(β^-)[from ¹⁸⁶W(n, γ), E=thermal]; measured Eγ, Iγ. ¹⁸⁷Re; deduced levels, J, π, photon emission probabilities.

doi: 10.1103/PhysRevC.89.014606
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2014HU14      Nucl.Data Sheets 119, 91 (2014)

A.M.Hurst, R.B.Firestone, L.Szentmiklosi, Zs.Revay, M.S.Basunia, T.Belgya, J.E.Escher, M.Krticka, N.C.Summers, B.W.Sleaford

New Measurement of the Thermal-capture Cross Section for the Minor Isotope ¹⁸⁰W

NUCLEAR REACTIONS ¹⁸⁰W(n, γ), E=thermal; measured prompt Eγ, Iγ using HPGe of Prompt Gamma Activation Analysis; deduced σ to ground state and to low-lying excited states; calculated σ₀ using statistical code DICEBOX with various models for level density and for γ ray Lorentzian; deduced radiation widths Γ_γ to individual levels.

doi: 10.1016/j.nds.2014.08.026
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Data from this article have been entered in the EXFOR database. For more information, access X4 dataset31752.

2014KR08      Nucl.Data Sheets 119, 158 (2014)

J.Kroll, U.Agvaanluvsan, B.Baramsai, J.A.Becker, F.Becvar, T.A.Bredeweg, A.Chyzh, A.Couture, D.Dashdorj, R.C.Haight, M.Jandel, A.L.Keksis, M.Krticka, G.E.Mitchell, J.M.O'Donnell, W.Parker, R.S.Rundberg, J.L.Ullmann, S.Valenta, D.J.Vieira, C.L.Walker, J.B.Wilhelmy, J.M.Wouters, C.Y.Wu

Systematics of Scissors Mode in Gd Nuclei from Experiments with the DANCE Detector

NUCLEAR REACTIONS ^{152,154,155,156,157,158}Gd(n, γ), E=subthermal-1 MeV; measured Eγ, Iγ using ToF LANSCE/DANCE array (BaF2); calculated γ emission, γ cascades using MSC code DICEBOX with fitted parameters and all models of RIPL-3; deduced M1 scissors mode vibrations; calculated scissors mode B(M1) vs deformation for (n, γ), (γ, γ') and ³He-induced reactions data.

doi: 10.1016/j.nds.2014.08.044
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2014UL01      Phys.Rev. C 89, 034603 (2014)

J.L.Ullmann, T.Kawano, T.A.Bredeweg, A.Couture, R.C.Haight, M.Jandel, J.M.O'Donnell, R.S.Rundberg, D.J.Vieira, J.B.Wilhelmy, J.A.Becker, A.Chyzh, C.Y.Wu, B.Baramsai, G.E.Mitchell, M.Krticka

Cross section and γ-ray spectra for ²³⁸U(n, γ) measured with the DANCE detector array at the Los Alamos Neutron Science Center

NUCLEAR REACTIONS ²³⁸U(n, γ), E=1-500 keV; measured Eγ, Iγ, σ(E) using DANCE array at LANSCE-LLNL spallation neutron source facility. Comparison with Hauser-Feshbach calculations using CoH3 computer code and cascade spectra calculations by DICEBOX code using level data from ENSDF database, with evaluated cross section in ENDF/B-VII.1, and with previous experimental data. M1 scissors mode contribution to the radiative strength function.

doi: 10.1103/PhysRevC.89.034603
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Data from this article have been entered in the EXFOR database. For more information, access X4 dataset14310.

2014UL02      Nucl.Data Sheets 119, 22 (2014)

J.L.Ullmann, S.Mosby, T.A.Bredeweg, A.J.Couture, R.C.Haight, M.Jandel, T.Kawano, J.M.O'Donnell, R.S.Rundberg, D.J.Vieira, J.B.Wilhelmy, C.-Y.Wu, J.A.Becker, A.Chyzh, B.Baramsai, G.E.Mitchell, M.Krticka

Neutron Capture Cross Sections and Gamma Emission Spectra from Neutron Capture on ^{234, 236, 238}U Measured with DANCE

NUCLEAR REACTIONS ^234,236,238U(n, γ), E=10 eV-700 keV; measured Eγ, Iγ using DANCE at LANSCE; deduced two-step cascade γ-ray spectrum. ²³⁸U deduced σ. Cross sections compared with data and ENDF/B-VII.

doi: 10.1016/j.nds.2014.08.008
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Data from this article have been entered in the EXFOR database. For more information, access X4 dataset14310.

2014VA05      Nucl.Data Sheets 118, 243 (2014)

S.Valenta, F.Becvar, J.Kroll, M.Krticka

Recent Results on Studying Photon Strength Functions in Rare-earth Nuclei

NUCLEAR STRUCTURE Gd, ¹⁶⁰Gd; calculated γ-ray strength function for E1, M1 transitions using different Lorentzians. Compared with RIPL and ARC data.

doi: 10.1016/j.nds.2014.04.048
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2014WI04      Nucl.Data Sheets 119, 258 (2014)

M.Wiedeking, L.A.Bernstein, J.M.Allmond, M.S.Basunia, D.L.Bleuel, J.T.Burke, P.Fallon, R.B.Firestone, B.L.Goldblum, R.Hatarik, M.Krticka, P.T.Lake, A.C.Larsen, I.-Y.Lee, S.R.Lesher, S.Paschalis, M.Petri, L.Phair, N.D.Scielzo

Photon Strength Function at Low Energies in ⁹⁵Mo

NUCLEAR REACTIONS ⁹⁴Mo(d, p), E=11 MeV; measured Eγ, Iγ, Ep, Ip, pγ-coin, charged particles using STARS-LIBERACE array; deduced γ-ray strength function energy dependence below 7 MeV using also (³He, α) data reference; calculated γ-ray strength function using various assumptions on reaction mechanism.

doi: 10.1016/j.nds.2014.08.071
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2013BA15      Phys.Rev. C 87, 044609 (2013)

B.Baramsai, J.Kroll, G.E.Mitchell, U.Agvaanluvsan, F.Becvar, T.A.Bredeweg, A.Chyzh, A.Couture, D.Dashdorj, R.C.Haight, M.Jandel, A.L.Keksis, M.Krticka, J.M.O'Donnell, R.S.Rundberg, J.L.Ullmann, D.J.Vieira, C.L.Walker

Photon strength functions of ¹⁵⁶Gd from radiative capture of resonance neutrons

NUCLEAR REACTIONS ¹⁵⁵Gd(n, γ), E=7.8, 21.0 eV; measured Eγ, Iγ, sum energy spectra, cluster multiplicity of γ cascades using DANCE γ-ray calorimeter at LANSCE facility; deduced spectra of multistep γ cascades (MSCs) and those of gated MSCs, E1 and M1 photon strength functions, scissors mode. DICEBOX algorithm. Validity of various photon strength functions (PSF), and nuclear level density (NLD) models Comparison with previous experimental studies, and with theoretical calculations.

doi: 10.1103/PhysRevC.87.044609
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2013FI01      Phys.Rev. C 87, 024605 (2013)

R.B.Firestone, M.Krticka, Zs.Revay, L.Szentmiklosi, T.Belgya

Thermal neutron capture cross sections of the potassium isotopes

NUCLEAR REACTIONS ^39,40,41K(n, γ), E=thermal; measured Eγ, Iγ, total radiative neutron σ at Budapest reactor facility. Natural potassium target. ^40,41,42K; deduced levels, J, π, feedings, Monte Carlo simulations using computer code DICEBOX. Comparison with statistical model calculations, previous studies, and ENSDF evaluations.

doi: 10.1103/PhysRevC.87.024605
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Data from this article have been entered in the EXFOR database. For more information, access X4 dataset31727. Data from this article have been entered in the XUNDL database. For more information, click here.

2013IS14      Phys.Lett. B 727, 361 (2013)

J.Isaak, D.Savran, M.Krticka, M.W.Ahmed, J.Beller, E.Fiori, J.Glorius, J.H.Kelley, B.Loher, N.Pietralla, C.Romig, G.Rusev, M.Scheck, L.Schnorrenberger, J.Silva, K.Sonnabend, A.P.Tonchev, W.Tornow, H.R.Weller, M.Zweidinger

Constraining nuclear photon strength functions by the decay properties of photo-excited states

NUCLEAR REACTIONS ¹¹B, ¹³⁰Te(γ, γ'), (γ, X), E<10 MeV; measured reaction products, Eγ, Iγ; deduced excited states π quantum numbers within 5.5-8.5 MeV region, γ-ray branching ratio, population intensity. Comparison with DICEBOX simulations, DHIPS and HIγS facilities at Darmstadt and TUNL, respectively.

doi: 10.1016/j.physletb.2013.10.040
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetL0193.

2013KO05      Fortsch.Phys. 61, 80 (2013)

P.E.Koehler, F.Becvar, M.Krticka, K.H.Guber, J.L.Ullmann

Neutron resonance data exclude random matrix theory

NUCLEAR REACTIONS ¹⁴⁷Sm, ^192,194Pt, ²³²Th(n, γ), E<15 keV; analyzed available data; deduced disagreements with random matrix theory.

doi: 10.1002/prop.201200067
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2013KR07      Phys.Scr. T154, 014009 (2013)

J.Kroll, F.Becvar, M.Krticka, S.Valenta, B.Baramsai, G.E.Mitchell, C.L.Walker, T.A.Bredeweg, A.Couture, R.C.Haight, M.Jandel, J.M.O'Donnell, R.S.Rundberg, J.L.Ullmann, D.J.Vieira, J.B.Wilhelmy, J.M.Wouters, J.A.Becker, A.Chyzh, D.Dashdorj, W.Parker, C.Y.Wu

Scissors mode of Gd nuclei measured, with the DANCE detector

NUCLEAR REACTIONS ^{152,154,155,156,157,158}Gd(n, γ), E<1 MeV; measured reaction products, Eγ, Iγ; deduced photon strength, summed scissors-mode strength B(M1). Comparison with available data.

doi: 10.1088/0031-8949/2013/T154/014009
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2013KR11      Phys.Rev. C 88, 034317 (2013)

J.Kroll, B.Baramsai, G.E.Mitchell, U.Agvaanluvsan, F.Becvar, T.A.Bredeweg, A.Chyzh, A.Couture, D.Dashdorj, R.C.Haight, M.Jandel, A.L.Keksis, M.Krticka, J.M.O'Donnell, W.Parker, R.S.Rundberg, J.L.Ullmann, S.Valenta, D.J.Vieira, C.Walker, C.Y.Wu

Strength of the scissors mode in odd-mass Gd isotopes from the radiative capture of resonance neutrons

NUCLEAR REACTIONS ^{152,154,156,158}Gd(n, γ), E<1 MeV white neutron spectrum; measured multistep cascade (MSC) γ spectra for different multiplicities and several resolved s-wave resonances using DANCE array at LANSCE, LANL facility; deduced E1 and M1 photon strength functions, level density. GEANT4-based simulations. Comparison with several model calculations of photon strength functions (PSF) and nuclear level densities (NLD) for deformed nuclei, and with experimental data from other reactions. Discussed scissors mode in odd-A Gd isotopes from summed reduced M1 strengths. Evidence of odd-even effect in strength of scissors mode.

doi: 10.1103/PhysRevC.88.034317
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2013RU05      Phys.Rev. C 87, 054603 (2013)

G.Rusev, M.Jandel, M.Krticka, T.A.Bredeweg, A.Couture, T.N.Taddeucci, J.L.Ullmann

γ-ray cascade transitions in ¹¹²Cd and ¹¹⁴Cd following resonance capture of epithermal neutrons

NUCLEAR REACTIONS ^111,113Cd(n, γ), E=epithermal; measured E(n), I(n), TOF, Eγ, Iγ, γγ-coin, σ, multiplicity distribution using DANCE calorimeter at LANSCE facility. ^112,114Cd; deduced levels, resonances, J, π, neutron, two-step γ cascades and radiative width of s-wave resonances, E1, M1 and E2 strength function. Comparison with statistical-model calculations using DICEBOX code, SLO and KMF models.

doi: 10.1103/PhysRevC.87.054603
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2013RU14      Phys.Rev. C 88, 057602 (2013)

G.Rusev, M.Jandel, M.Krticka, C.W.Arnold, T.A.Bredeweg, A.Couture, W.A.Moody, S.M.Mosby, J.L.Ullmann

Cascade γ rays following capture of thermal neutrons on ¹¹³Cd

NUCLEAR REACTIONS ¹¹³Cd(n, γ), E=0.178 eV; measured Eγ, Iγ, γγ-coin using DANCE array of BaF₂ detectors at LANSCE-LANL facility; deduced multiplicity of γ cascades. DICEBOX analysis. GEANT4 simulations. Comparison with ENDF-6 evaluation.

doi: 10.1103/PhysRevC.88.057602
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2012AN13      Phys.Rev. C 86, 051302 (2012); Erratum Phys.Rev. C 91, 039901 (2015)

C.T.Angell, S.L.Hammond, H.J.Karwowski, J.H.Kelley, M.Krticka, E.Kwan, A.Makinaga, G.Rusev

Evidence for radiative coupling of the pygmy dipole resonance to excited states

NUCLEAR REACTIONS ¹⁴²Nd(γ, n), E=9.86-13.3 MeV; ¹⁴²Nd(polarized γ, γ'), E=4.2-9.7 MeV; measured Eγ, Iγ, branching ratio, σ(E) using High Intensity γ-ray Source (HIγS) at TUNL for (γ, γ'), and quasimonoenergetic γ-ray source at Tsukuba; deduced two distinct PDR peaks. Comparison with statistical-model calculations. Violation of Brink hypothesis.

doi: 10.1103/PhysRevC.86.051302
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetK2403.

2012BA07      Phys.Rev. C 85, 024622 (2012)

B.Baramsai, G.E.Mitchell, U.Agvaanluvsan, F.Becvar, T.A.Bredeweg, A.Chyzh, A.Couture, D.Dashdorj, R.C.Haight, M.Jandel, A.L.Keksis, M.Krticka, J.M.O'Donnell, R.S.Rundberg, J.L.Ullmann, D.J.Vieira, C.L.Walker

Neutron resonance parameters in ¹⁵⁵Gd measured with the DANCE γ-ray calorimeter array

NUCLEAR REACTIONS ¹⁵⁵Gd(n, γ), E=1.36-185 eV; measured neutron spectra by time-of-flight, E(n), I(n), Eγ, sum-energy spectra, average γ-ray multiplicity of s-wave resonances, cross sections using DANCE calorimeter at LANSC. ¹⁵⁶Gd; deduced resonances, spins by various methods, resonance parameters, s-wave level density, normalized yields for J=1 and J=2 resonances, neutron and radiative width, Sammy fit of experimental cross sections. Comparison with previous studies, and ENDF/B-VII.0, JENDL-4.0, JEFF-3.1, ROSFOND-2010 libraries.

doi: 10.1103/PhysRevC.85.024622
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Data from this article have been entered in the EXFOR database. For more information, access X4 dataset14318. Data from this article have been entered in the XUNDL database. For more information, click here.

2012BU09      Phys.Rev. C 85, 064328 (2012)

A.Burger, A.C.Larsen, S.Hilaire, M.Guttormsen, S.Harissopulos, M.Kmiecik, T.Konstantinopoulos, M.Krticka, A.Lagoyannis, T.Lonnroth, K.Mazurek, M.Norrby, H.T.Nyhus, G.Perdikakis, S.Siem, A.Spyrou, N.U.H.Syed

Nuclear level density and γ-ray strength function of ⁴³Sc

NUCLEAR REACTIONS ⁴⁶Ti(p, α), E=32 MeV; measured Eγ, Eα, αγ-coin. ⁴³Sc; deduced nuclear level density and γ-ray strength function. Comparison with ⁴⁵Sc level density, and with microscopic, combinatorial model calculations. Oslo method.

doi: 10.1103/PhysRevC.85.064328
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetO1992.

2012KR10      J.Phys.:Conf.Ser. 337, 012012 (2012)

M.Krticka, P.E.Koehler, F.Becvar, J.A.Harvey, K.H.Guber

Anomalous properties of neutron resonances in Pt isotopes

NUCLEAR REACTIONS Pt, ^{192,194,195,196}Pt(n, γ), (n, X), E≈10 eV-300 keV; re-analyzed earlier data of the authors on s-wave neutron widths, total radiation width distribution in even-even Pt targets using multilevel multichannel R-matrix code SAMMY; deduced resonance parameters, number of degrees of freedom of their width distributions.

doi: 10.1088/1742-6596/337/1/012012
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2012SC02      Phys.Rev. C 85, 014311 (2012)

G.Schramm, R.Massarczyk, A.R.Junghans, T.Belgya, R.Beyer, E.Birgersson, E.Grosse, M.Kempe, Z.Kis, K.Kosev, M.Krticka, A.Matic, K.D.Schilling, R.Schwengner, L.Szentmiklosi, A.Wagner, J.L.Weil

Dipole strength in ⁷⁸Se below the neutron separation energy from a combined analysis of ⁷⁷Se(n, γ) and ⁷⁸Se(γ, γ') experiments

NUCLEAR REACTIONS ⁷⁷Se(n, γ), E AP 6 milli-eV, cold neutrons; ⁷⁸Se(γ, γ'), E<11.5 MeV bremsstrahlung; measured Eγ, Iγ; deduced photoabsorption cross section, level density according to constant-temperature model, dipole strength function. Comparison with simulated spectra from extreme statistical code.

doi: 10.1103/PhysRevC.85.014311
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Data from this article have been entered in the EXFOR database. For more information, access X4 dataset31721.

2012WI04      Phys.Rev.Lett. 108, 162503 (2012)

M.Wiedeking, L.A.Bernstein, M.Krticka, D.L.Bleuel, J.M.Allmond, M.S.Basunia, J.T.Burke, P.Fallon, R.B.Firestone, B.L.Goldblum, R.Hatarik, P.T.Lake, I-Y.Lee, S.R.Lesher, S.Paschalis, M.Petri, L.Phair, N.D.Scielzo

Low-Energy Enhancement in the Photon Strength of ⁹⁵Mo

NUCLEAR REACTIONS ⁹⁴Mo(d, p), E=11 MeV; measured reaction products, Eπ, Iπ, Eγ, Iγ, γ-γ-coin.; deduced photon strength functions, low-energy enhancement. Comparison with available data, quadratic fit.

doi: 10.1103/PhysRevLett.108.162503
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2011BE37      J.Korean Phys.Soc. 59, 809s (2011)

F.Becvar, M.Krticka

Photon Strength Functions of Medium-Weight and Heavy Nuclei

doi: 10.3938/jkps.59.809
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2011BE47      Eur.Phys.J. A 47, 160 (2011)

F.Belloni, M.Calviani, N.Colonna, P.Mastinu, P.M.Milazzo, U.Abbondanno, G.Aerts, H.Alvarez, F.Alvarez-Velarde, S.Andriamonje, J.Andrzejewski, L.Audouin, G.Badurek, M.Barbagallo, P.Baumann, F.Becvar, E.Berthoumieux, F.Calvino, D.Cano-Ott, R.Capote, C.Carrapico, P.Cennini, V.Chepel, E.Chiaveri, G.Cortes, A.Couture, J.Cox, M.Dahlfors, S.David, I.Dillmann, C.Domingo-Pardo, W.Dridi, I.Duran, C.Eleftheriadis, M.Embid-Segura, A.Ferrari, R.Ferreira-Marques, K.Fujii, W.Furman, I.Goncalves, E.Gonzalez-Romero, A.Goverdovski, F.Gramegna, C.Guerrero, F.Gunsing, B.Haas, R.Haight, M.Heil, A.Herrera-Martinez, M.Igashira, E.Jericha, F.Kappeler, Y.Kadi, D.Karadimos, D.Karamanis, M.Kerveno, P.Koehler, E.Kossionides, M.Krticka, C.Lamboudis, H.Leeb, A.Lindote, I.Lopes, M.Lozano, S.Lukic, J.Marganiec, S.Marrone, T.Martinez, C.Massimi, M.H.Meaze, A.Mengoni, C.Moreau, M.Mosconi, F.Neves, H.Oberhummer, S.O'Brien, J.Pancin, C.Papachristodoulou, C.Papadopoulos, C.Paradela, N.Patronis, A.Pavlik, P.Pavlopoulos, L.Perrot, M.T.Pigni, R.Plag, A.Plompen, A.Plukis, A.Poch, J.Praena, C.Pretel, J.Quesada, T.Rauscher, R.Reifarth, M.Rosetti, C.Rubbia, G.Rudolf, P.Rullhusen, J.Salgado, C.Santos, L.Sarchiapone, I.Savvidis, C.Stephan, G.Tagliente, J.L.Tain, D.Tarrio, L.Tassan-Got, L.Tavora, R.Terlizzi, G.Vannini, P.Vaz, A.Ventura, D.Villamarin, M.C.Vincente, V.Vlachoudis, R.Vlastou, F.Voss, S.Walter, M.Wiescher, K.Wisshak

Measurement of the neutron-induced fission cross-section of ²⁴³Am relative to ²³⁵U from 0.5 to 20 MeV

NUCLEAR REACTIONS ²³⁵U, ²⁴³Am(n, F), E=0.5-20 MeV; measured fission products using n_TOF fast ionization chamber; deduced σ; calculated σ using EMPIRE code. Compared with other data, ENDF/B-VII.0, JENDL-4.0, JEFF-3.1.1, ROSFOND, BROND-2.2.

doi: 10.1140/epja/i2011-11160-x
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Data from this article have been entered in the EXFOR database. For more information, access X4 dataset23148.

2011BE58      Nucl.Instrum.Methods Phys.Res. A647, 73 (2011)

F.Becvar, P.E.Koehler, M.Krticka, G.E.Mitchell, J.L.Ullmann

Optimized γ-multiplicity-based spin assignments of s-wave neutron resonances

NUCLEAR REACTIONS ^147,149Sm(n, γ), E<600 eV; analyzed available data; deduced yields, neutron resonance parameters. Comparison with available data.

doi: 10.1016/j.nima.2011.04.026
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Data from this article have been entered in the EXFOR database. For more information, access X4 dataset14306.

2011CH31      Phys.Rev. C 84, 014306 (2011)

A.Chyzh, B.Baramsai, J.A.Becker, F.Becvar, T.A.Bredeweg, A.Couture, D.Dashdorj, R.C.Haight, M.Jandel, J.Kroll, M.Krticka, G.E.Mitchell, J.M.O'Donnell, W.Parker, R.S.Rundberg, J.L.Ullmann, D.J.Vieira, C.L.Walker, J.B.Wilhelmy, J.M.Wouters, C.Y.Wu

Measurement of the ¹⁵⁷Gd(n, γ) reaction with the DANCE γ calorimeter array

NUCLEAR REACTIONS ¹⁵⁷Gd(n, γ), E=<300 eV; measured Eγ, Iγ using DANCE γ calorimeter. ¹⁵⁸Gd; deduced E1, M1 and E1 photon strength distributions, resonances, multiplicity, spin distribution, multistep cascade (MSC) spectra. Statistical model calculations using DICEBOX code. Scissors mode.

doi: 10.1103/PhysRevC.84.014306
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2011GU02      Phys.Rev. C 83, 014312 (2011)

M.Guttormsen, A.C.Larsen, A.Burger, A.Gorgen, S.Harissopulos, M.Kmiecik, T.Konstantinopoulos, M.Krticka, A.Lagoyannis, T.Lonnroth, K.Mazurek, M.Norrby, H.T.Nyhus, G.Perdikakis, A.Schiller, S.Siem, A.Spyrou, N.U.H.Syed, H.K.Toft, G.M.Tveten, A.Voinov

Fermi?s golden rule applied to the γ decay in the quasicontinuum of ⁴⁶Ti

NUCLEAR REACTIONS ⁴⁶Ti(p, p'), E=15 MeV; measured Ep, Ip, pγ-coin, excitation functions; deduced level density and radiative strength function (RSF) using Oslo method. Fermi?s golden rule employed to disentangle the γ strength and level density in the γ decay between states in the quasicontinuum of ⁴⁶Ti.

doi: 10.1103/PhysRevC.83.014312
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2011KO55      J.Korean Phys.Soc. 59, 2088s (2011)

P.E.Koehler, J.A.Harvey, F.Becvar, M.Krticka, K.H.Guber

New Techniques for Determining Spins and Parities of Neutron Resonances and Their Impact on Nuclear Astrophysics

COMPILATION ⁹⁵Mo(n, γ), E=resonance; compiled, analyzed parity distributions. ⁹⁵Mo, ¹²⁰Sn, ¹⁹⁴Pt(n, γ), E=resonance; calculated, analyzed γ widths, GDR parameters for s- or p-wave resonances using R-matrix applied to ORELA data, DICEBOX.

doi: 10.3938/jkps.59.2088
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2011KR03      Int.J.Mod.Phys. E20, 488 (2011)

M.Krticka, F.Becvar

Scissors mode of excited nuclei from (n, γ) reaction

NUCLEAR REACTIONS ¹⁶²Gd(n, γ), E=50-100 keV; analyzed available data; deduced multistep γ cascades, scissor mode.

doi: 10.1142/S0218301311017892
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2011KR04      Int.J.Mod.Phys. E20, 526 (2011)

J.Kroll, F.Becvar, M.Krticka, I.Tomandl

Photon strength functions of ¹⁶⁰Tb from the two-step gamma cascade measurement

NUCLEAR REACTIONS ¹⁵⁹Tb(n, γ), E=thermal; measured Eγ, Iγ, two-step γ cascades; deduced M1 scissor vibrational mode role in the γ-cascade decay, photon strength functions, level densities.

doi: 10.1142/S0218301311017958
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2011LA05      Phys.Rev. C 83, 034315 (2011); Erratum Phys.Rev. C 97, 094901 (2018)

A.C.Larsen, M.Guttormsen, M.Krticka, E.Betak, A.Burger, A.Gorgen, H.T.Nyhus, J.Rekstad, A.Schiller, S.Siem, H.K.Toft, G.M.Tveten, A.V.Voinov, K.Wikan

Analysis of possible systematic errors in the Oslo method

NUCLEAR REACTIONS ⁵⁰V, ¹¹⁷Sn, ^160,164Dy(³He, α), E not given; ⁵⁰V, ^160,162,164Dy(³He, ³He'), E not given; ⁴⁶Ti(p, p'), E=15-32 MeV; analyzed previous experimental data and simulated data for particle and γ spectra, (particle)γ-coin, γ-ray transmission coefficients and strength functions, level densities. ^56,57,58Fe, ^96,97,98Mo(³He, ³He'); analyzed first generation matrix, parity distributions. Analysis of systematic errors in Oslo method for the simultaneous extraction of the level density and γ-ray transmission coefficient from (particle)γ-coincidence data.

doi: 10.1103/PhysRevC.83.034315
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2011SL01      J.Korean Phys.Soc. 59, 1473s (2011)

B.W.Sleaford, N.Summers, J.Escher, R.B.Firestone, S.Basunia, A.Hurst, M.Krticka, G.Molnar, T.Belgya, Zs.Revay, H.D.Choi

Capture Gamma-ray Libraries for Nuclear Applications

COMPILATION ^1,2H, ^6,7Li, ⁹Be, ^10,11B, ¹²C, ¹⁴N, ¹⁶O, ¹⁹F, ²³Na, ²⁴Mg, ²⁷Al, ²⁸Si, ³¹P, ³²S, ^35,37Cl, ⁵⁶Fe, ¹⁰⁴Pd, ^{182,183,184,186}W, ²⁰⁷Pb(n, γ), E=thermal; compiled, evaluated σ, σ(Eγ), γ decay schemes, levels, J, π using ENDF, DICEBOX. ¹⁰⁵Pd(n, γ), E=thermal; calculated, evaluated σ(Eγ), γ decay schemes, level population. Created new library EGAF (Evaluated Gamma-ray Activation File).

doi: 10.3938/jkps.59.1473
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2011TA17      Phys.Rev. C 84, 015801 (2011)

G.Tagliente, P.M.Milazzo, K.Fujii, U.Abbondanno, G.Aerts, H.Alvarez, F.Alvarez-Velarde, S.Andriamonje, J.Andrzejewski, L.Audouin, G.Badurek, P.Baumann, F.Becvar, F.Belloni, E.Berthoumieux, S.Bisterzo, F.Calvino, M.Calviani, D.Cano-Ott, R.Capote, C.Carrapico, P.Cennini, V.Chepel, E.Chiaveri, N.Colonna, G.Cortes, A.Couture, J.Cox, M.Dahlfors, S.David, I.Dillmann, C.Domingo-Pardo, W.Dridi, I.Duran, C.Eleftheriadis, M.Embid-Segura, A.Ferrari, R.Ferreira-Marques, W.Furman, R.Gallino, I.Goncalves, E.Gonzalez-Romero, F.Gramegna, C.Guerrero, F.Gunsing, B.Haas, R.Haight, M.Heil, A.Herrera-Martinez, E.Jericha, F.Kappeler, Y.Kadi, D.Karadimos, D.Karamanis, M.Kerveno, E.Kossionides, M.Krticka, C.Lamboudis, H.Leeb, A.Lindote, I.Lopes, M.Lozano, S.Lukic, J.Marganiec, S.Marrone, T.Martnez, C.Massimi, P.Mastinu, A.Mengoni, C.Moreau, M.Mosconi, F.Neves, H.Oberhummer, S.O'Brien, J.Pancin, C.Papachristodoulou, C.Papadopoulos, C.Paradela, N.Patronis, A.Pavlik, P.Pavlopoulos, L.Perrot, M.T.Pigni, R.Plag, A.Plompen, A.Plukis, A.Poch, J.Praena, C.Pretel, J.Quesada, T.Rauscher, R.Reifarth, M.Rosetti, C.Rubbia, G.Rudolf, P.Rullhusen, J.Salgado, C.Santos, L.Sarchiapone, I.Savvidis, C.Stephan, J.L.Tain, L.Tassan-Got, L.Tavora, R.Terlizzi, G.Vannini, P.Vaz, A.Ventura, D.Villamarin, M.C.Vincente, V.Vlachoudis, R.Vlastou, F.Voss, S.Walter, M.Wiescher, K.Wisshak

Neutron capture on ⁹⁴Zr: Resonance parameters and Maxwellian-averaged cross sections

NUCLEAR REACTIONS ⁹⁴Zr(n, γ), E=0.001-60 keV; measured E(n), I(n), capture yield using CERN n_TOF neutron source; deduced resonance parameters E_R, gamma and neutron widths, capture kernels; calculated Maxwellian-averaged capture cross sections. ⁹⁵Zr; deduced resonances, J, l-values, R-matrix analysis. Comparison with previous studies. Discussed astrophysical implications.

doi: 10.1103/PhysRevC.84.015801
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2011UL01      J.Korean Phys.Soc. 59, 1406s (2011)

J.L.Ullmann, A.J.Couture, A.L.Keksis, D.J.Vieira, J.M.O'Donnell, J.M.Wouters, M.Jandel, R.C.Haight, R.S.Rundberg, T.A.Bredeweg, T.Kawano, C.Y.Wu, J.A.Becker, A.Chyzh, B.Baramsai, G.E.Mitchell, M.Krticka

Measurement of the ²³⁸U Neutron-capture Cross Section and Gamma-emission Spectra from 10 eV to 100 keV Using the DANCE Detector at LANSCE

NUCLEAR REACTIONS ²³⁸U(n, γ), E=10 eV-100 keV; measured Eγ, Iγ, γγ-coin using DANCE at LANSCE; deduced σ, γ multiplicity, 36 eV resonance σ(Eγ); calculated γ multiplicity, σ(Eγ) using DICEBOX code.

doi: 10.3938/jkps.59.1406
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2010KO21      Phys.Rev.Lett. 105, 072502 (2010)

P.E.Koehler, F.Becvar, M.Krticka, J.A.Harvey, K.H.Guber

Anomalous Fluctuations of s-Wave Reduced Neutron Widths of ^{192, 194}Pt Resonances

NUCLEAR REACTIONS ^192,194Pt(n, γ), ¹⁹⁷Au(n, γ), E not given; analyzed experimental data using R-matrix; deduce neutron widths, resonance parameters, rejection of Porter-Thomas distribution. SAMMY code.

doi: 10.1103/PhysRevLett.105.072502
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2009SH05      Phys.Rev. C 79, 024301 (2009)

S.A.Sheets, U.Agvaanluvsan, J.A.Becker, F.Becvar, T.A.Bredeweg, R.C.Haight, M.Jandel, M.Krticka, G.E.Mitchell, J.M.O'Donnell, W.Parker, R.Reifarth, R.S.Rundberg, E.I.Sharapov, J.L.Ullmann, D.J.Vieira, J.B.Wilhelmy, J.M.Wouters, C.Y.Wu

Test of the statistical model in ⁹⁶Mo with the BaF_2γ calorimeter DANCE array

NUCLEAR REACTIONS ⁹⁵Mo(n, γ), E<2 keV; measured Eγ, Iγ, from multi-step γ cascades for s- and p-wave neutron resonances below 2 keV. Compared γ spectral shapes to DICEBOX statistical model simulations. Compared multi-step γ-cascade spectra for different multiplicities from various resonances with predictions of different photon strength function models.

doi: 10.1103/PhysRevC.79.024301
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2009SY02      Phys.Rev. C 80, 044309 (2009)

N.U.H.Syed, A.C.Larsen, A.Burger, M.Guttormsen, S.Harissopulos, M.Kmiecik, T.Konstantinopoulos, M.Krticka, A.Lagoyannis, T.Lonnroth, K.Mazurek, M.Norby, H.T.Nyhus, G.Perdikakis, S.Siem, A.Spyrou

Extraction of thermal and electromagnetic properties in ⁴⁵Ti

NUCLEAR REACTIONS ⁴⁶Ti(p, d), E=32 MeV; measured Eγ, (particle)γ-coin; deduced level densities, γ-ray strength function, entropy, temperature, and spin distributions using Oslo method. Comparison of measured level densities with combinatorial BCS model calculations using Nilsson orbitals, and measured γ-ray strength functions with generalized Lorentzian model calculations.

doi: 10.1103/PhysRevC.80.044309
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2008DO05      J.Phys.(London) G35, 014020 (2008)

C.Domingo-Pardo, U.Abbondanno, G.Aerts, H.Alvarez, F.Alvarez-Velarde, S.Andriamonje, J.Andrzejewski, P.Assimakopoulos, L.Audouin, G.Badurek, P.Baumann, F.Becvar, E.Berthoumieux, S.Bisterzo, F.Calvino, M.Calviani, D.Cano-Ott, R.Capote, C.Carrapico, P.Cennini, V.Chepel, N.Colonna, G.Cortes, A.Couture, J.Cox, M.Dahlfors, S.David, I.Dillmann, W.Dridi, I.Duran, C.Eleftheriadis, M.Embid-Segura, L.Ferrant, A.Ferrari, R.Ferreira-Marques, K.Fujii, W.Furman, R.Gallino, I.Goncalves, E.Gonzalez-Romero, F.Gramegna, C.Guerrero, F.Gunsing, B.Haas, R.Haight, M.Heil, A.Herrera-Martinez, M.Igashira, E.Jericha, Y.Kadi, F.Kappeler, D.Karadimos, D.Karamanis, M.Kerveno, P.Koehler, E.Kossionides, M.Krticka, C.Lamboudis, H.Leeb, A.Lindote, I.Lopes, M.Lozano, S.Lukic, J.Marganiec, S.Marrone, C.Massimi, P.Mastinu, A.Mengoni, P.M.Milazzo, M.Mosconi, F.Neves, H.Oberhummer, S.O'Brien, J.Pancin, C.Papachristodoulou, C.Papadopoulos, C.Paradela, N.Patronis, A.Pavlik, P.Pavlopoulos, L.Perrot, M.T.Pigni, R.Plag, A.Plompen, A.Plukis, A.Poch, C.Pretel, J.Quesada, T.Rauscher, R.Reifarth, C.Rubbia, G.Rudolf, P.Rullhusen, J.Salgado, C.Santos, L.Sarchiapone, I.Savvidis, C.Stephan, G.Tagliente, J.L.Tain, L.Tassan-Got, L.Tavora, R.Terlizzi, G.Vannini, P.Vaz, A.Ventura, D.Villamarin, M.C.Vincente, V.Vlachoudis, R.Vlastou, F.Voss, S.Walter, M.Wiescher, K.Wisshak

The measurement of the ²⁰⁶Pb(n, γ) cross section and stellar implications

NUCLEAR REACTIONS ²⁰⁶Pb(n, γ), E=0.001-1000 keV; measured Eγ, Iγ, capture cross sections. Deduced maxwellian averaged sections.

doi: 10.1088/0954-3899/35/1/014020
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Data from this article have been entered in the EXFOR database. For more information, access X4 dataset22984.

2008KR02      J.Phys.(London) G35, 014025 (2008)

M.Krticka, F.Becvar

What do we really know about photon strength functions?

doi: 10.1088/0954-3899/35/1/014025
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2008KR04      Phys.Rev. C 77, 054319 (2008)

M.Krticka, F.Becvar, I.Tomandl, G.Rusev, U.Agvaanluvsan, G.E.Mitchell

Two-step gamma cascades following thermal neutron capture in ⁹⁵Mo

NUCLEAR REACTIONS ⁹⁴Mo(n, γ), E=thermal; measured Eγ, Iγ, γγ-coin, two-step γ cascades, σ_γ, , multipolarities. ⁹⁵Mo; deduced levels, J, π, level densities. ⁹⁶Mo(³He, ³He), ⁹⁷Mo(³He, αγ); systematics.

doi: 10.1103/PhysRevC.77.054319
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2008KR05      Phys.Rev. C 77, 054615 (2008)

M.Krticka, R.B.Firestone, D.P.McNabb, B.Sleaford, U.Agvaanluvsan, T.Belgya, Z.S.Revay

Thermal neutron capture cross sections of the palladium isotopes

NUCLEAR REACTIONS ^{102,104,105,106,108,110}Pd(n, γ), E=thermal; measured neutron capture σ, Eγ, Iγ, γγ-coin, γ widths, multipolarities. ^{103,105,106,107,109,111}Pd; deduced levels, J, π.

doi: 10.1103/PhysRevC.77.054615
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Data from this article have been entered in the EXFOR database. For more information, access X4 dataset31611. Data from this article have been entered in the XUNDL database. For more information, click here.

2008RU04      Phys.Rev. C 77, 064321 (2008)

G.Rusev, R.Schwengner, F.Donau, M.Erhard, E.Grosse, A.R.Junghans, K.Kosev, K.D.Schilling, A.Wagner, F.Becvar, M.Krticka

Low-energy tail of the giant dipole resonance in ⁹⁸Mo and ¹⁰⁰Mo deduced from photon-scattering experiments

NUCLEAR REACTIONS ^98,100Mo(γ, γ'), E<15 MeV; measured Eγ, Iγ, photoabsorption σ, giant resonances, angular distributions, distribution of mean branching ratios, dipole strength functions; deduced multipolarities. ²⁷Al, ²⁸Si, ⁵⁶Fe, ⁶³Cu, ^70,72,73,74Ge(n, γ), E=thermal; measured Eγ, Iγ. ^99,101Mo(γ, n); analyzed cross sections. ⁹⁷Mo(n, γ), ⁹⁸Mo(³He, ³He'γ); comparisons.

doi: 10.1103/PhysRevC.77.064321
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetM0760. Data from this article have been entered in the XUNDL database. For more information, click here.

2007AG09      Nucl.Instrum.Methods Phys.Res. B261, 934 (2007)

U.Agvaanluvsan, J.A.Becker, R.A.Macri, W.Parker, P.Wilk, C.Y.Wu, T.A.Bredeweg, E.Esch, R.C.Haight, J.M.O'Donnell, R.Reifarth, R.S.Rundberg, J.M.Schwantes, J.L.Ullmann, D.J.Vieira, J.B.Wilhelmy, J.M.Wouters, G.E.Mitchell, S.Sheets, F.Becvar, M.Krticka

Progress on the europium neutron capture study using DANCE

NUCLEAR REACTIONS ^151,153Eu(n, γ), E=0.1-100 keV; measured Eγ, Iγ, and multiplicity distributions.

doi: 10.1016/j.nimb.2007.03.107
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2007SH46      Phys.Rev. C 76, 064317 (2007)

S.A.Sheets, U.Agvaanluvsan, J.A.Becker, F.Becvar, T.A.Bredeweg, R.C.Haight, M.Krticka, M.Jandel, G.E.Mitchell, J.M.O'Donnell, W.E.Parker, R.Reifarth, R.S.Rundberg, E.I.Sharapov, I.Tomandl, J.L.Ullmann, D.J.Vieira, J.M.Wouters, J.B.Wilhelmy, C.Y.Wu

Spin and parity assignments for ^{94, 95}Mo neutron resonances

NUCLEAR REACTIONS ^94,95Mo(n, γ), E=800 MeV; measured neutron energies, Eγ, Iγ, γ-ray multiplicities. ^95,96Mo; deduced neutron resonance levels, J, π.

doi: 10.1103/PhysRevC.76.064317
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Data from this article have been entered in the XUNDL database. For more information, click here.

2006WI01      Phys.Rev. C 73, 015802 (2006)

K.Wisshak, F.Voss, F.Kappeler, M.Krticka, S.Raman, A.Mengoni, R.Gallino

Stellar neutron capture cross section of the unstable s-process branching point ¹⁵¹Sm

NUCLEAR REACTIONS Sm, ¹⁵¹Sm(n, γ), E=3-225 keV; measured capture σ; deduced Maxwellian averaged σ. Astrophysical implications discussed.

doi: 10.1103/PhysRevC.73.015802
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Data from this article have been entered in the EXFOR database. For more information, access X4 dataset22916.

2006WI11      Phys.Rev. C 73, 045807 (2006)

K.Wisshak, F.Voss, F.Kappeler, L.Kazakov, F.Becvar, M.Krticka, R.Gallino, M.Pignatari

Fast neutron capture on the Hf isotopes: Cross sections, isomer production, and stellar aspects

NUCLEAR REACTIONS ^{176,177,178,179,180}Hf(n, γ), E=3-225 keV; measured Eγ, Iγ, capture σ; deduced Maxwellian-averaged σ. Astrophysical implications discussed.

doi: 10.1103/PhysRevC.73.045807
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Data from this article have been entered in the EXFOR database. For more information, access X4 dataset22926.

2004KR08      Phys.Rev.Lett. 92, 172501 (2004)

M.Krticka, F.Becvar, J.Honzatko, I.Tomandl, M.Heil, F.Kappeler, R.Reifarth, F.Voss, K.Wisshak

Evidence for M1 Scissors Resonances Built on the Levels in the Quasicontinuum of ¹⁶³Dy

NUCLEAR REACTIONS ¹⁶²Dy(n, γ), E=thermal; measured Eγ, Iγ, γγ-coin, two-step cascade spectra. ¹⁶³Dy deduced scissors resonances.

doi: 10.1103/PhysRevLett.92.172501
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2004WI07      Phys.Rev. C 69, 055801 (2004)

K.Wisshak, F.Voss, C.Arlandini, F.Kappeler, M.Heil, R.Reifarth, M.Krticka, F.Becvar

Stellar neutron capture on ¹⁸⁰Ta^m. I. Cross section measurement between 10 keV and 100 keV

NUCLEAR REACTIONS ^180m,181Ta, ¹⁹⁷Au(n, γ), E=10-100 keV; measured Eγ, capture σ. ^180mTa(n, γ), E < 700 keV; deduced Maxwellian averaged σ.

doi: 10.1103/PhysRevC.69.055801
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Data from this article have been entered in the EXFOR database. For more information, access X4 dataset22801.

2003KR11      Czech.J.Phys. 53, 483 (2003)

M.Krticka, J.Liptak, J.Materna, F.Sterba, J.Sterbova, J.Vrzal, M.Wintrova

Properties of some bound states of the ⁵⁶Fe nucleus excited by the ⁵⁵Mn(p, γ)⁵⁶Fe reaction

NUCLEAR REACTIONS ⁵⁵Mn(p, γ), E=1.3-1.8 MeV; measured Eγ, Iγ, DSA. ⁵⁶Fe deduced levels, J, π, T_1/2, branching ratios, level density and resonance decay features.

doi: 10.1023/A:1024653525657
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2003WA24      Nucl.Instrum.Methods Phys.Res. A513, 585 (2003)

S.Wang, M.Lubert, Y.Danon, N.C.Francis, R.C.Block, F.Becvar, M.Krticka

The RPI multiplicity detector response to γ-ray cascades following neutron capture in ¹⁴⁹Sm and ¹⁵⁰Sm

NUCLEAR REACTIONS ^149,150Sm(n, γ), E not given; calculated γ-ray multiplicity distributions, detector response. Statistical model, comparison with data.

doi: 10.1016/S0168-9002(03)01941-7
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2003ZA08      Phys.Rev. C 68, 014320 (2003)

L.Zanini, F.Corvi, H.Postma, F.Becvar, M.Krticka, J.Honzatko, I.Tomandl

Cascade γ decay study of ¹⁰⁸Ag following thermal and resonance neutron capture in ¹⁰⁷Ag

NUCLEAR REACTIONS ¹⁰⁷Ag(n, γ), E=thermal; measured Eγ, Iγ, γγ-coin. ¹⁰⁸Ag deduced photon strength functions, related features. Two-step cascade method.

doi: 10.1103/PhysRevC.68.014320
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2002RE32      Phys.Rev. C 66, 064603 (2002)

R.Reifarth, M.Heil, F.Kappeler, F.Voss, K.Wisshak, F.Becvar, M.Krticka, R.Gallino, Y.Nagai

Stellar neutron capture cross sections of ^{128, 129, 130}Xe

NUCLEAR REACTIONS ^128,129,130Xe(n, γ), E=3-225 keV; measured Eγ, Iγ, capture σ; deduced Maxwellian averaged σ. Astrophysical implications discussed.

doi: 10.1103/PhysRevC.66.064603
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Data from this article have been entered in the EXFOR database. For more information, access X4 dataset22816.

2002ZA07      Phys.Rev. C65, 067305 (2002)

N.V.Zamfir, H.G.Borner, N.Pietralla, R.F.Casten, Z.Berant, C.J.Barton, C.W.Beausang, D.S.Brenner, M.A.Caprio, J.R.Cooper, A.A.Hecht, M.Krticka, R.Krucken, P.Mutti, J.R.Novak, A.Wolf

Lifetime and B(E2) Values for the 3₁⁺ Level in ¹⁵²Sm

NUCLEAR REACTIONS ¹⁵¹Sm(n, γ), E=reactor; measured Doppler-broadened Eγ, Iγ. ¹⁵²Sm level deduced T_1/2, B(E2), phase coexistence. Gamma-ray induced Doppler broadening technique.

RADIOACTIVITY ¹⁵²Eu(EC); measured γγ-coin, γ-ray polarization. ¹⁵²Sm transition deduced δ.

doi: 10.1103/PhysRevC.65.067305
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2001WI13      Nucl.Phys. A688, 533c (2001)

K.Wisshak, F.Voss, C.Arlandini, M.Heil, F.Kappeler, R.Reifarth, M.Krticka, F.Becvar

Stellar Neutron Capture Cross Section of the Rarest Stable Isotope ^180mTa

NUCLEAR REACTIONS ¹⁸⁰Ta(n, γ), E=10-100 keV; measured Eγ. Production of ¹⁸⁰Ta in stellar environments discussed.

doi: 10.1016/S0375-9474(01)00779-5
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2001WI22      Phys.Rev.Lett. 87, 251102 (2001)

K.Wisshak, F.Voss, C.Arlandini, F.Becvar, O.Straniero, R.Gallino, M.Heil, F.Kappeler, M.Krticka, S.Masera, R.Reifarth, C.Travaglio

Neutron Capture on ¹⁸⁰Ta^m: Clue for an s-process origin of nature's rarest isotope

NUCLEAR REACTIONS ^180mTa(n, γ), E=10-100 keV; measured capture σ; deduced astrophysical average capture σ.

doi: 10.1103/PhysRevLett.87.251102
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Data from this article have been entered in the EXFOR database. For more information, access X4 dataset22801.

2000GE14      Phys.Rev. C62, 034313 (2000)

L.Genilloud, J.Jolie, H.G.Borner, H.Lehmann, F.Becvar, M.Krticka, N.V.Zamfir, R.F.Casten

Lifetimes of Negative Parity States in ¹⁶⁸Er

NUCLEAR REACTIONS ¹⁶⁷Er(n, γ), E=reactor; measured Doppler-broadened Eγ, Iγ. ¹⁶⁸Er levels deduced T_1/2, B(E1). Gamma-ray induced Doppler broadening technique. Comparison with IBA model predictions.

doi: 10.1103/PhysRevC.62.034313
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1999BO10      Phys.Rev. C59, 2432 (1999)

H.G.Borner, M.Jentschel, N.V.Zamfir, R.F.Casten, M.Krticka, W.Andrejtscheff

Ultrahigh Resolution Study of Collective Modes in ¹⁵⁸Gd

NUCLEAR REACTIONS ¹⁵⁷Gd(n, γ), E=thermal; measured Eγ, Iγ. ¹⁵⁸Gd deduced levels J, π, T_1/2, B(E2), no two-phonon vibration. Gamma-ray induced Doppler broadening technique.

doi: 10.1103/PhysRevC.59.2432
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