First measurement of the 96Ru(p,γ)97Rh cross section for the p process with a storage ring

Bo Mei; Thomas Aumann; Shawn Bishop; Klaus Blaum; Konstanze Boretzky; Fritz Bosch; Carsten Brandau; Harald Bräuning; Thomas Davinson; Iris Dillmann; Christina Dimopoulou; Olga Ershova; Zsolt Fülöp; Hans Geissel; Jan Glorius; György Gyürky; Michael Heil; Franz Käppeler; Aleksandra Kelic-Heil; Christophor Kozhuharov; Christoph Langer; Tudi Le Bleis; Yuri Litvinov; Gavin Lotay; Justyna Marganiec; Gottfried Münzenberg; Fritz Nolden; Nikolaos Petridis; Ralf Plag; Ulrich Popp; Ganna Rastrepina; René Reifarth; Björn Riese; Catherine Rigollet; Christoph Scheidenberger; Haik Simon; Kerstin Sonnabend; Markus Steck; Thomas Stöhlker; Tamás Szücs; Klaus Sümmerer; Günter Weber; Helmut Weick; Danyal Winters; Natalya Winters; Philip Woods; Qiping Zhong

doi:10.1103/PhysRevC.92.035803

First measurement of the 96Ru(p,γ)97Rh cross section for the p process with a storage ring

Bo Mei, Thomas Aumann, Shawn Bishop, Klaus Blaum, Konstanze Boretzky, Fritz Bosch, Carsten Brandau, Harald Bräuning, Thomas Davinson, Iris Dillmann, Christina Dimopoulou, Olga Ershova, Zsolt Fülöp, Hans Geissel, Jan Glorius, György Gyürky, Michael Heil, Franz Käppeler, Aleksandra Kelic-Heil, Christophor KozhuharovChristoph Langer, Tudi Le Bleis, Yuri Litvinov, Gavin Lotay, Justyna Marganiec, Gottfried Münzenberg, Fritz Nolden, Nikolaos Petridis, Ralf Plag, Ulrich Popp, Ganna Rastrepina, René Reifarth, Björn Riese, Catherine Rigollet, Christoph Scheidenberger, Haik Simon, Kerstin Sonnabend, Markus Steck, Thomas Stöhlker, Tamás Szücs, Klaus Sümmerer, Günter Weber, Helmut Weick, Danyal Winters, Natalya Winters, Philip Woods, Qiping Zhong

School of Physics and Astronomy

Research output: Contribution to journal › Article › peer-review

Abstract / Description of output

This work presents a direct measurement of the 96Ru(p,γ)97Rh cross section via a novel technique using a storage ring, which opens opportunities for reaction measurements on unstable nuclei. A proof-of-principle experiment was performed at the storage ring ESR at GSI in Darmstadt, where circulating 96Ru ions interacted repeatedly with a hydrogen target. The 96Ru(p,γ)97Rh cross section between 9 and 11 MeV has been determined using two independent normalization methods. As key ingredients in Hauser-Feshbach calculations, the γ-ray strength function as well as the level density model can be pinned down with the measured (p,γ) cross section. Furthermore, the proton optical potential can be optimized after the uncertainties from the γ-ray strength function and the level density have been removed. As a result, a constrained 96Ru(p,γ)97Rh reaction rate over a wide temperature range is recommended for p-process network calculations.

Original language	English
Article number	035803
Journal	Physical Review C
Volume	92
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevC.92.035803
Publication status	Published - 2 Sept 2015

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10.1103/PhysRevC.92.035803

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Mei, B., Aumann, T., Bishop, S., Blaum, K., Boretzky, K., Bosch, F., Brandau, C., Bräuning, H., Davinson, T., Dillmann, I., Dimopoulou, C., Ershova, O., Fülöp, Z., Geissel, H., Glorius, J., Gyürky, G., Heil, M., Käppeler, F., Kelic-Heil, A., ... Zhong, Q. (2015). First measurement of the 96Ru(p,γ)97Rh cross section for the p process with a storage ring. Physical Review C, 92(3), [035803]. https://doi.org/10.1103/PhysRevC.92.035803

@article{0d5f8d4ac43d45859f525a1c6ae2de55,

title = "First measurement of the 96Ru(p,γ)97Rh cross section for the p process with a storage ring",

abstract = "This work presents a direct measurement of the 96Ru(p,γ)97Rh cross section via a novel technique using a storage ring, which opens opportunities for reaction measurements on unstable nuclei. A proof-of-principle experiment was performed at the storage ring ESR at GSI in Darmstadt, where circulating 96Ru ions interacted repeatedly with a hydrogen target. The 96Ru(p,γ)97Rh cross section between 9 and 11 MeV has been determined using two independent normalization methods. As key ingredients in Hauser-Feshbach calculations, the γ-ray strength function as well as the level density model can be pinned down with the measured (p,γ) cross section. Furthermore, the proton optical potential can be optimized after the uncertainties from the γ-ray strength function and the level density have been removed. As a result, a constrained 96Ru(p,γ)97Rh reaction rate over a wide temperature range is recommended for p-process network calculations.",

author = "Bo Mei and Thomas Aumann and Shawn Bishop and Klaus Blaum and Konstanze Boretzky and Fritz Bosch and Carsten Brandau and Harald Br{\"a}uning and Thomas Davinson and Iris Dillmann and Christina Dimopoulou and Olga Ershova and Zsolt F{\"u}l{\"o}p and Hans Geissel and Jan Glorius and Gy{\"o}rgy Gy{\"u}rky and Michael Heil and Franz K{\"a}ppeler and Aleksandra Kelic-Heil and Christophor Kozhuharov and Christoph Langer and {Le Bleis}, Tudi and Yuri Litvinov and Gavin Lotay and Justyna Marganiec and Gottfried M{\"u}nzenberg and Fritz Nolden and Nikolaos Petridis and Ralf Plag and Ulrich Popp and Ganna Rastrepina and Ren{\'e} Reifarth and Bj{\"o}rn Riese and Catherine Rigollet and Christoph Scheidenberger and Haik Simon and Kerstin Sonnabend and Markus Steck and Thomas St{\"o}hlker and Tam{\'a}s Sz{\"u}cs and Klaus S{\"u}mmerer and G{\"u}nter Weber and Helmut Weick and Danyal Winters and Natalya Winters and Philip Woods and Qiping Zhong",

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Mei, B, Aumann, T, Bishop, S, Blaum, K, Boretzky, K, Bosch, F, Brandau, C, Bräuning, H, Davinson, T, Dillmann, I, Dimopoulou, C, Ershova, O, Fülöp, Z, Geissel, H, Glorius, J, Gyürky, G, Heil, M, Käppeler, F, Kelic-Heil, A, Kozhuharov, C, Langer, C, Le Bleis, T, Litvinov, Y, Lotay, G, Marganiec, J, Münzenberg, G, Nolden, F, Petridis, N, Plag, R, Popp, U, Rastrepina, G, Reifarth, R, Riese, B, Rigollet, C, Scheidenberger, C, Simon, H, Sonnabend, K, Steck, M, Stöhlker, T, Szücs, T, Sümmerer, K, Weber, G, Weick, H, Winters, D, Winters, N, Woods, P & Zhong, Q 2015, 'First measurement of the 96Ru(p,γ)97Rh cross section for the p process with a storage ring', Physical Review C, vol. 92, no. 3, 035803. https://doi.org/10.1103/PhysRevC.92.035803

TY - JOUR

T1 - First measurement of the 96Ru(p,γ)97Rh cross section for the p process with a storage ring

AU - Mei, Bo

AU - Aumann, Thomas

AU - Bishop, Shawn

AU - Blaum, Klaus

AU - Boretzky, Konstanze

AU - Bosch, Fritz

AU - Brandau, Carsten

AU - Bräuning, Harald

AU - Davinson, Thomas

AU - Dillmann, Iris

AU - Dimopoulou, Christina

AU - Ershova, Olga

AU - Fülöp, Zsolt

AU - Geissel, Hans

AU - Glorius, Jan

AU - Gyürky, György

AU - Heil, Michael

AU - Käppeler, Franz

AU - Kelic-Heil, Aleksandra

AU - Kozhuharov, Christophor

AU - Langer, Christoph

AU - Le Bleis, Tudi

AU - Litvinov, Yuri

AU - Lotay, Gavin

AU - Marganiec, Justyna

AU - Münzenberg, Gottfried

AU - Nolden, Fritz

AU - Petridis, Nikolaos

AU - Plag, Ralf

AU - Popp, Ulrich

AU - Rastrepina, Ganna

AU - Reifarth, René

AU - Riese, Björn

AU - Rigollet, Catherine

AU - Scheidenberger, Christoph

AU - Simon, Haik

AU - Sonnabend, Kerstin

AU - Steck, Markus

AU - Stöhlker, Thomas

AU - Szücs, Tamás

AU - Sümmerer, Klaus

AU - Weber, Günter

AU - Weick, Helmut

AU - Winters, Danyal

AU - Winters, Natalya

AU - Woods, Philip

AU - Zhong, Qiping

N1 - DoA is a proxy.

PY - 2015/9/2

Y1 - 2015/9/2

N2 - This work presents a direct measurement of the 96Ru(p,γ)97Rh cross section via a novel technique using a storage ring, which opens opportunities for reaction measurements on unstable nuclei. A proof-of-principle experiment was performed at the storage ring ESR at GSI in Darmstadt, where circulating 96Ru ions interacted repeatedly with a hydrogen target. The 96Ru(p,γ)97Rh cross section between 9 and 11 MeV has been determined using two independent normalization methods. As key ingredients in Hauser-Feshbach calculations, the γ-ray strength function as well as the level density model can be pinned down with the measured (p,γ) cross section. Furthermore, the proton optical potential can be optimized after the uncertainties from the γ-ray strength function and the level density have been removed. As a result, a constrained 96Ru(p,γ)97Rh reaction rate over a wide temperature range is recommended for p-process network calculations.

AB - This work presents a direct measurement of the 96Ru(p,γ)97Rh cross section via a novel technique using a storage ring, which opens opportunities for reaction measurements on unstable nuclei. A proof-of-principle experiment was performed at the storage ring ESR at GSI in Darmstadt, where circulating 96Ru ions interacted repeatedly with a hydrogen target. The 96Ru(p,γ)97Rh cross section between 9 and 11 MeV has been determined using two independent normalization methods. As key ingredients in Hauser-Feshbach calculations, the γ-ray strength function as well as the level density model can be pinned down with the measured (p,γ) cross section. Furthermore, the proton optical potential can be optimized after the uncertainties from the γ-ray strength function and the level density have been removed. As a result, a constrained 96Ru(p,γ)97Rh reaction rate over a wide temperature range is recommended for p-process network calculations.

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U2 - 10.1103/PhysRevC.92.035803

DO - 10.1103/PhysRevC.92.035803

M3 - Article

AN - SCOPUS:84942279421

SN - 0556-2813

VL - 92

JO - Physical Review C

JF - Physical Review C

IS - 3

M1 - 035803

ER -

First measurement of the 96Ru(p,γ)97Rh cross section for the p process with a storage ring

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Edinburgh Nuclear Physics Group Consolidated Grant Proposal

Philip Woods

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First measurement of the 96Ru(p,γ)97Rh cross section for the p process with a storage ring

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