Cross section measurements of $^{155,157}$Gd(n,$\gamma$) induced by thermal and epithermal neutrons

Neutron capture cross section measurements on$^{155}$Gd and$^{157}$Gd were performed using the time-of-flight technique at the n_TOF facility at CERN on isotopically enriched samples. The measurements were carried out in the n_TOF experimental area EAR1, at 185 m from the neutron source, with an arr...

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Autores principales: Mastromarco, M., Manna, A., Aberle, O., Andrzejewski, J., Audouin, L., Bacak, M., Balibrea, J., Barbagallo, M., Becvar, F., Berthoumieux, E., Billowes, J., Bosnar, D., Brown, A., Caamano, M., Calvino, F., Calviani, M., Cano-Ott, D., Cardella, R., Casanovas, A., Castelluccio, D.M., Cerutti, F., Chen, Y.H., Chiaveri, E., Clai, G., Colonna, N., Cortás, G., Cortés-Giraldo, M.A., Cosentino, L., Damone, L.A., Diakaki, M., Domingo-Pardo, C., Dressler, R., Dupont, E., Durán, I., Fernández-Dominguez, B., Ferrari, A., Ferreira, P., Finocchiaro, P., Furman, V., Göbel, K., Garcia, A.R., Gawlik, A., Gilardoni, S., Glodariu, T., Goncalves, I.F., González-Romero, E., Griesmayer, E., Guerrero, C., Gunsing, F., Guglielmelli, A., Harada, H., Heinitz, S., Heyse, J., Jenkins, D.G., Jericha, E., Käppeler, F., Kadi, Y., Kalamara, A., Kavrigin, P., Kimura, A., Kivel, N., Knapova, I., Kokkoris, M., Krticka, M., Kurtulgil, D., Leal-Cidoncha, E., Lederer, C., Leeb, H., Lerendegui-Marco, J., Lonsdale, S.J., Macina, D., Marganiec, J., Martinez, T., Masi, A., Massimi, C., Mastinu, P., Maugeri, E.A., Mazzone, A., Mendoza, E., Mengoni, A., Milazzo, P.M., Mingrone, F., Musumarra, A., Negret, A., Nolte, R., Oprea, A., Patronis, N., Pavlik, A., Perkowski, J., Porras, I., Praena, J., Quesada, J.M., Radeck, D., Rauscher, T., Reifarth, R., Rocchi, F., Rubbia, C., Ryan, J.A., Sabaté-Gilarte, M., Saxena, A., Schillebeeckx, P., Schumann, D., Sedyshev, P., Smith, A.G., Sosnin, N.V., Stamatopoulos, A., Tagliente, G., Tain, J.L., Tarifeno-Saldivia, A., Tassan-Got, L., Valenta, S., Vannini, G., Variale, V., Vaz, P., Ventura, A., Vlachoudis, V., Vlastou, R., Wallner, A., Warren, S., C.Weiss, Winants, R., Woods, P.J., Wright, T., Zugec, P.
Lenguaje:eng
Publicado: 2018
Materias:
nucl-ex
Nuclear Physics - Experiment
Acceso en línea:https://dx.doi.org/10.1140/epja/i2019-12692-7
https://dx.doi.org/10.1140/epja/i2019-12724-4
http://cds.cern.ch/record/2320058
_version_ 1780958465887305728
author Mastromarco, M.
Manna, A.
Aberle, O.
Andrzejewski, J.
Audouin, L.
Bacak, M.
Balibrea, J.
Barbagallo, M.
Becvar, F.
Berthoumieux, E.
Billowes, J.
Bosnar, D.
Brown, A.
Caamano, M.
Calvino, F.
Calviani, M.
Cano-Ott, D.
Cardella, R.
Casanovas, A.
Castelluccio, D.M.
Cerutti, F.
Chen, Y.H.
Chiaveri, E.
Clai, G.
Colonna, N.
Cortás, G.
Cortés-Giraldo, M.A.
Cosentino, L.
Damone, L.A.
Diakaki, M.
Domingo-Pardo, C.
Dressler, R.
Dupont, E.
Durán, I.
Fernández-Dominguez, B.
Ferrari, A.
Ferreira, P.
Finocchiaro, P.
Furman, V.
Göbel, K.
Garcia, A.R.
Gawlik, A.
Gilardoni, S.
Glodariu, T.
Goncalves, I.F.
González-Romero, E.
Griesmayer, E.
Guerrero, C.
Gunsing, F.
Guglielmelli, A.
Harada, H.
Heinitz, S.
Heyse, J.
Jenkins, D.G.
Jericha, E.
Käppeler, F.
Kadi, Y.
Kalamara, A.
Kavrigin, P.
Kimura, A.
Kivel, N.
Knapova, I.
Kokkoris, M.
Krticka, M.
Kurtulgil, D.
Leal-Cidoncha, E.
Lederer, C.
Leeb, H.
Lerendegui-Marco, J.
Lonsdale, S.J.
Macina, D.
Marganiec, J.
Martinez, T.
Masi, A.
Massimi, C.
Mastinu, P.
Maugeri, E.A.
Mazzone, A.
Mendoza, E.
Mengoni, A.
Milazzo, P.M.
Mingrone, F.
Musumarra, A.
Negret, A.
Nolte, R.
Oprea, A.
Patronis, N.
Pavlik, A.
Perkowski, J.
Porras, I.
Praena, J.
Quesada, J.M.
Radeck, D.
Rauscher, T.
Reifarth, R.
Rocchi, F.
Rubbia, C.
Ryan, J.A.
Sabaté-Gilarte, M.
Saxena, A.
Schillebeeckx, P.
Schumann, D.
Sedyshev, P.
Smith, A.G.
Sosnin, N.V.
Stamatopoulos, A.
Tagliente, G.
Tain, J.L.
Tarifeno-Saldivia, A.
Tassan-Got, L.
Valenta, S.
Vannini, G.
Variale, V.
Vaz, P.
Ventura, A.
Vlachoudis, V.
Vlastou, R.
Wallner, A.
Warren, S.
C.Weiss
Winants, R.
Woods, P.J.
Wright, T.
Zugec, P.
author_facet Mastromarco, M.
Manna, A.
Aberle, O.
Andrzejewski, J.
Audouin, L.
Bacak, M.
Balibrea, J.
Barbagallo, M.
Becvar, F.
Berthoumieux, E.
Billowes, J.
Bosnar, D.
Brown, A.
Caamano, M.
Calvino, F.
Calviani, M.
Cano-Ott, D.
Cardella, R.
Casanovas, A.
Castelluccio, D.M.
Cerutti, F.
Chen, Y.H.
Chiaveri, E.
Clai, G.
Colonna, N.
Cortás, G.
Cortés-Giraldo, M.A.
Cosentino, L.
Damone, L.A.
Diakaki, M.
Domingo-Pardo, C.
Dressler, R.
Dupont, E.
Durán, I.
Fernández-Dominguez, B.
Ferrari, A.
Ferreira, P.
Finocchiaro, P.
Furman, V.
Göbel, K.
Garcia, A.R.
Gawlik, A.
Gilardoni, S.
Glodariu, T.
Goncalves, I.F.
González-Romero, E.
Griesmayer, E.
Guerrero, C.
Gunsing, F.
Guglielmelli, A.
Harada, H.
Heinitz, S.
Heyse, J.
Jenkins, D.G.
Jericha, E.
Käppeler, F.
Kadi, Y.
Kalamara, A.
Kavrigin, P.
Kimura, A.
Kivel, N.
Knapova, I.
Kokkoris, M.
Krticka, M.
Kurtulgil, D.
Leal-Cidoncha, E.
Lederer, C.
Leeb, H.
Lerendegui-Marco, J.
Lonsdale, S.J.
Macina, D.
Marganiec, J.
Martinez, T.
Masi, A.
Massimi, C.
Mastinu, P.
Maugeri, E.A.
Mazzone, A.
Mendoza, E.
Mengoni, A.
Milazzo, P.M.
Mingrone, F.
Musumarra, A.
Negret, A.
Nolte, R.
Oprea, A.
Patronis, N.
Pavlik, A.
Perkowski, J.
Porras, I.
Praena, J.
Quesada, J.M.
Radeck, D.
Rauscher, T.
Reifarth, R.
Rocchi, F.
Rubbia, C.
Ryan, J.A.
Sabaté-Gilarte, M.
Saxena, A.
Schillebeeckx, P.
Schumann, D.
Sedyshev, P.
Smith, A.G.
Sosnin, N.V.
Stamatopoulos, A.
Tagliente, G.
Tain, J.L.
Tarifeno-Saldivia, A.
Tassan-Got, L.
Valenta, S.
Vannini, G.
Variale, V.
Vaz, P.
Ventura, A.
Vlachoudis, V.
Vlastou, R.
Wallner, A.
Warren, S.
C.Weiss
Winants, R.
Woods, P.J.
Wright, T.
Zugec, P.
author_sort Mastromarco, M.
collection CERN
description Neutron capture cross section measurements on$^{155}$Gd and$^{157}$Gd were performed using the time-of-flight technique at the n_TOF facility at CERN on isotopically enriched samples. The measurements were carried out in the n_TOF experimental area EAR1, at 185 m from the neutron source, with an array of 4 C$_{6}$D$_{6}$ liquid scintillation detectors. At a neutron kinetic energy of 0.0253 eV, capture cross sections of 62.2(2.2) and 239.8(8.4) kilobarn have been derived for$^{155}$Gd and$^{157}$Gd, respectively, with up to 6% deviation relative to values presently reported in nuclear data libraries, but consistent with those values within 1.6 standard deviations. A resonance shape analysis has been performed in the resolved resonance region up to 181 eV and 307 eV, respectively for$^{155}$Gd and$^{157}$Gd, where on average, resonance parameters have been found in good agreement with evaluations. Above these energies and up to 1 keV, the observed resonance-like structure of the cross section has been analysed and characterised. From a statistical analysis of the observed neutron resonances we deduced: neutron strength function of $2.01(28) \times 10^{-4}$ and $2.17(41) \times 10^{-4}$ , average total radiative width of 106.8(14) meV and 101.1(20) meV and s-wave resonance spacing 1.6(2) eV and 4.8(5) eV for n +$^{155}$Gd and n +$^{157}$Gd systems, respectively.
id cern-2320058
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2018
record_format invenio
spelling cern-23200582022-04-20T06:46:33Zdoi:10.1140/epja/i2019-12692-7doi:10.1140/epja/i2019-12724-4http://cds.cern.ch/record/2320058engMastromarco, M.Manna, A.Aberle, O.Andrzejewski, J.Audouin, L.Bacak, M.Balibrea, J.Barbagallo, M.Becvar, F.Berthoumieux, E.Billowes, J.Bosnar, D.Brown, A.Caamano, M.Calvino, F.Calviani, M.Cano-Ott, D.Cardella, R.Casanovas, A.Castelluccio, D.M.Cerutti, F.Chen, Y.H.Chiaveri, E.Clai, G.Colonna, N.Cortás, G.Cortés-Giraldo, M.A.Cosentino, L.Damone, L.A.Diakaki, M.Domingo-Pardo, C.Dressler, R.Dupont, E.Durán, I.Fernández-Dominguez, B.Ferrari, A.Ferreira, P.Finocchiaro, P.Furman, V.Göbel, K.Garcia, A.R.Gawlik, A.Gilardoni, S.Glodariu, T.Goncalves, I.F.González-Romero, E.Griesmayer, E.Guerrero, C.Gunsing, F.Guglielmelli, A.Harada, H.Heinitz, S.Heyse, J.Jenkins, D.G.Jericha, E.Käppeler, F.Kadi, Y.Kalamara, A.Kavrigin, P.Kimura, A.Kivel, N.Knapova, I.Kokkoris, M.Krticka, M.Kurtulgil, D.Leal-Cidoncha, E.Lederer, C.Leeb, H.Lerendegui-Marco, J.Lonsdale, S.J.Macina, D.Marganiec, J.Martinez, T.Masi, A.Massimi, C.Mastinu, P.Maugeri, E.A.Mazzone, A.Mendoza, E.Mengoni, A.Milazzo, P.M.Mingrone, F.Musumarra, A.Negret, A.Nolte, R.Oprea, A.Patronis, N.Pavlik, A.Perkowski, J.Porras, I.Praena, J.Quesada, J.M.Radeck, D.Rauscher, T.Reifarth, R.Rocchi, F.Rubbia, C.Ryan, J.A.Sabaté-Gilarte, M.Saxena, A.Schillebeeckx, P.Schumann, D.Sedyshev, P.Smith, A.G.Sosnin, N.V.Stamatopoulos, A.Tagliente, G.Tain, J.L.Tarifeno-Saldivia, A.Tassan-Got, L.Valenta, S.Vannini, G.Variale, V.Vaz, P.Ventura, A.Vlachoudis, V.Vlastou, R.Wallner, A.Warren, S.C.WeissWinants, R.Woods, P.J.Wright, T.Zugec, P.Cross section measurements of $^{155,157}$Gd(n,$\gamma$) induced by thermal and epithermal neutronsnucl-exNuclear Physics - ExperimentNeutron capture cross section measurements on$^{155}$Gd and$^{157}$Gd were performed using the time-of-flight technique at the n_TOF facility at CERN on isotopically enriched samples. The measurements were carried out in the n_TOF experimental area EAR1, at 185 m from the neutron source, with an array of 4 C$_{6}$D$_{6}$ liquid scintillation detectors. At a neutron kinetic energy of 0.0253 eV, capture cross sections of 62.2(2.2) and 239.8(8.4) kilobarn have been derived for$^{155}$Gd and$^{157}$Gd, respectively, with up to 6% deviation relative to values presently reported in nuclear data libraries, but consistent with those values within 1.6 standard deviations. A resonance shape analysis has been performed in the resolved resonance region up to 181 eV and 307 eV, respectively for$^{155}$Gd and$^{157}$Gd, where on average, resonance parameters have been found in good agreement with evaluations. Above these energies and up to 1 keV, the observed resonance-like structure of the cross section has been analysed and characterised. From a statistical analysis of the observed neutron resonances we deduced: neutron strength function of $2.01(28) \times 10^{-4}$ and $2.17(41) \times 10^{-4}$ , average total radiative width of 106.8(14) meV and 101.1(20) meV and s-wave resonance spacing 1.6(2) eV and 4.8(5) eV for n +$^{155}$Gd and n +$^{157}$Gd systems, respectively.Neutron capture cross section measurements on$^{155}$Gd and$^{157}$Gd were performed using the time-of-flight technique at the n_TOF facility at CERN on isotopically enriched samples. The measurements were carried out in the n_TOF experimental area EAR1, at 185 m from the neutron source, with an array of 4 C$_{6}$D$_{6}$ liquid scintillation detectors. At a neutron kinetic energy of 0.0253 eV, capture cross sections of 62.2(2.2) and 239.8(8.4) kilobarn have been derived for$^{155}$Gd and$^{157}$Gd, respectively, with up to 6% deviation relative to values presently reported in nuclear data libraries, but consistent with those values within 1.6 standard deviations. A resonance shape analysis has been performed in the resolved resonance region up to 181 eV and 307 eV, respectively for$^{155}$Gd and$^{157}$Gd, where on average, resonance parameters have been found in good agreement with evaluations. Above these energies and up to 1 keV, the observed resonance-like structure of the cross section has been analysed and characterised. From a statistical analysis of the observed neutron resonances we deduced: neutron strength function of $2.01(28) \times 10^{-4}$ and $2.17(41) \times 10^{-4}$, average total radiative width of 106.8(14) meV and 101.1(20) meV and s-wave resonance spacing 1.6(2) eV and 4.8(5) eV for n +$^{155}$Gd and n +$^{157}$Gd systems, respectively.Neutron capture measurements on $^{155}$Gd and $^{157}$Gd were performed using the time-of-flight technique at the n\_TOF facility at CERN. Four samples in form of self-sustaining metallic discs isotopically enriched in $^{155}$Gd and $^{157}$Gd were used. The measurements were carried out at the experimental area (EAR1) at 185 m from the neutron source, with an array of 4 C$_6$D$_6$ liquid scintillation detectors. The capture cross sections of $^{155}$Gd and $^{157}$Gd at neutron kinetic energy of 0.0253 eV have been estimated to be 62.2(2.2) kb and 239.8(9.3) kb, respectively, thus up to 6\% different relative to the ones reported in the nuclear data libraries. A resonance shape analysis has been performed in the resolved resonance region up to 180 eV and 300 eV, respectively, in average resonance parameters have been found in good agreement with evaluations. Above these energies the observed resonance-like structures in the cross section have been tentatively characterised in terms of resonance energy and area up to 1 keV.arXiv:1805.04149oai:cds.cern.ch:23200582018-05-10
spellingShingle nucl-ex
Nuclear Physics - Experiment
Mastromarco, M.
Manna, A.
Aberle, O.
Andrzejewski, J.
Audouin, L.
Bacak, M.
Balibrea, J.
Barbagallo, M.
Becvar, F.
Berthoumieux, E.
Billowes, J.
Bosnar, D.
Brown, A.
Caamano, M.
Calvino, F.
Calviani, M.
Cano-Ott, D.
Cardella, R.
Casanovas, A.
Castelluccio, D.M.
Cerutti, F.
Chen, Y.H.
Chiaveri, E.
Clai, G.
Colonna, N.
Cortás, G.
Cortés-Giraldo, M.A.
Cosentino, L.
Damone, L.A.
Diakaki, M.
Domingo-Pardo, C.
Dressler, R.
Dupont, E.
Durán, I.
Fernández-Dominguez, B.
Ferrari, A.
Ferreira, P.
Finocchiaro, P.
Furman, V.
Göbel, K.
Garcia, A.R.
Gawlik, A.
Gilardoni, S.
Glodariu, T.
Goncalves, I.F.
González-Romero, E.
Griesmayer, E.
Guerrero, C.
Gunsing, F.
Guglielmelli, A.
Harada, H.
Heinitz, S.
Heyse, J.
Jenkins, D.G.
Jericha, E.
Käppeler, F.
Kadi, Y.
Kalamara, A.
Kavrigin, P.
Kimura, A.
Kivel, N.
Knapova, I.
Kokkoris, M.
Krticka, M.
Kurtulgil, D.
Leal-Cidoncha, E.
Lederer, C.
Leeb, H.
Lerendegui-Marco, J.
Lonsdale, S.J.
Macina, D.
Marganiec, J.
Martinez, T.
Masi, A.
Massimi, C.
Mastinu, P.
Maugeri, E.A.
Mazzone, A.
Mendoza, E.
Mengoni, A.
Milazzo, P.M.
Mingrone, F.
Musumarra, A.
Negret, A.
Nolte, R.
Oprea, A.
Patronis, N.
Pavlik, A.
Perkowski, J.
Porras, I.
Praena, J.
Quesada, J.M.
Radeck, D.
Rauscher, T.
Reifarth, R.
Rocchi, F.
Rubbia, C.
Ryan, J.A.
Sabaté-Gilarte, M.
Saxena, A.
Schillebeeckx, P.
Schumann, D.
Sedyshev, P.
Smith, A.G.
Sosnin, N.V.
Stamatopoulos, A.
Tagliente, G.
Tain, J.L.
Tarifeno-Saldivia, A.
Tassan-Got, L.
Valenta, S.
Vannini, G.
Variale, V.
Vaz, P.
Ventura, A.
Vlachoudis, V.
Vlastou, R.
Wallner, A.
Warren, S.
C.Weiss
Winants, R.
Woods, P.J.
Wright, T.
Zugec, P.
Cross section measurements of $^{155,157}$Gd(n,$\gamma$) induced by thermal and epithermal neutrons
title Cross section measurements of $^{155,157}$Gd(n,$\gamma$) induced by thermal and epithermal neutrons
title_full Cross section measurements of $^{155,157}$Gd(n,$\gamma$) induced by thermal and epithermal neutrons
title_fullStr Cross section measurements of $^{155,157}$Gd(n,$\gamma$) induced by thermal and epithermal neutrons
title_full_unstemmed Cross section measurements of $^{155,157}$Gd(n,$\gamma$) induced by thermal and epithermal neutrons
title_short Cross section measurements of $^{155,157}$Gd(n,$\gamma$) induced by thermal and epithermal neutrons
title_sort cross section measurements of $^{155,157}$gd(n,$\gamma$) induced by thermal and epithermal neutrons
topic nucl-ex
Nuclear Physics - Experiment
url https://dx.doi.org/10.1140/epja/i2019-12692-7
https://dx.doi.org/10.1140/epja/i2019-12724-4
http://cds.cern.ch/record/2320058
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AT heinitzs crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT heysej crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT jenkinsdg crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT jerichae crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT kappelerf crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT kadiy crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT kalamaraa crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT kavriginp crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT kimuraa crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT kiveln crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT knapovai crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT kokkorism crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT krtickam crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT kurtulgild crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT lealcidonchae crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT ledererc crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT leebh crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT lerendeguimarcoj crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT lonsdalesj crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT macinad crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT marganiecj crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT martinezt crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT masia crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT massimic crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT mastinup crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT maugeriea crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT mazzonea crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT mendozae crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT mengonia crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT milazzopm crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT mingronef crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT musumarraa crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT negreta crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT nolter crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT opreaa crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT patronisn crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT pavlika crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT perkowskij crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT porrasi crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT praenaj crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT quesadajm crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT radeckd crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT rauschert crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT reifarthr crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT rocchif crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT rubbiac crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT ryanja crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT sabategilartem crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT saxenaa crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT schillebeeckxp crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT schumannd crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT sedyshevp crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT smithag crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT sosninnv crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT stamatopoulosa crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT taglienteg crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT tainjl crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT tarifenosaldiviaa crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT tassangotl crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT valentas crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT vanninig crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT varialev crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT vazp crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT venturaa crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT vlachoudisv crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT vlastour crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT wallnera crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT warrens crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT cweiss crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT winantsr crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT woodspj crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT wrightt crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons
AT zugecp crosssectionmeasurementsof155157gdngammainducedbythermalandepithermalneutrons

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