Nuclear transfer reaction measurements at the ESR-for the investigation of the astrophysical O-15(alpha,gamma)Ne-19 reaction

D. T. Doherty; P. J. Woods; Yu A. Litvinov; M. Ali Najafi; S. Bagchi; S. Bishop; M. Bo; C. Brandau; T. Davinson; I. Dillmann; A. Estrade; P. Egelhof; A. Evdokimov; A. Gumberidze; M. Heil; C. Lederer; S. A. Litvinov; G. Lotay; N. Kalantar-Nayestanaki; O. Kiselev; C. Kozhuharov; T. Kroell; M. Mahjour-Shafei; M. Mutterer; F. Nolden; N. Petridis; U. Popp; R. Reifarth; C. Rigollet; S. Roy; M. Steck; Th Stoehlker; B. Streicher; S. Trotsenko; M. von Schmid; X. L. Yan; J. C. Zamora

doi:10.1088/0031-8949/2015/T166/014007

Nuclear transfer reaction measurements at the ESR-for the investigation of the astrophysical O-15(alpha,gamma)Ne-19 reaction

D. T. Doherty^*
, P. J. Woods
, Yu A. Litvinov
, M. Ali Najafi
, S. Bagchi
, S. Bishop
, M. Bo
, C. Brandau
, T. Davinson
, I. Dillmann
, A. Estrade
, P. Egelhof
, A. Evdokimov
, A. Gumberidze
, M. Heil
, C. Lederer
, S. A. Litvinov
, G. Lotay
, N. Kalantar-Nayestanaki
, O. Kiselev

C. Kozhuharov, T. Kroell, M. Mahjour-Shafei, M. Mutterer, F. Nolden, N. Petridis, U. Popp, R. Reifarth, C. Rigollet, S. Roy, M. Steck, Th Stoehlker, B. Streicher, S. Trotsenko, M. von Schmid, X. L. Yan, J. C. Zamora

^*Corresponding author for this work

Physics of Nanodevices

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

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Abstract

Astrophysical x-ray bursts are thought to be a result of thermonuclear explosions on the atmosphere of an accreting neutron star. Between these bursts, energy is thought to be generated by the hot CNO cycles. The O-15(alpha,gamma)Ne-19 reaction is one reaction that allows breakout from these CNO cycles and into the rp-process to fuel outbursts. The reaction is expected to be dominated by a single 3/2(+) resonance at 4.033 MeV in Ne-19, however, limited information is available on this key state. This work reports on a pioneering study of the Ne-20(p, d)Ne-19 reaction, performed in inverse kinematics at the experimental storage ring (ESR) as a means of accessing the astrophysically important 4.033 MeV state in Ne-19. The unique, background free, high luminosity conditions of the storage ring were utilized for this, the first transfer reaction performed at the ESR. The results of this pioneering test experiment are presented along with suggestions for future measurements at storage ring facilities.

Original language	English
Article number	014007
Number of pages	4
Journal	Physica Scripta
Volume	T166
DOIs	https://doi.org/10.1088/0031-8949/2015/T166/014007
Publication status	Published - Nov-2015

Keywords

nuclear astrophysics
storage rings
transfer reactions

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10.1088/0031-8949/2015/T166/014007

Nuclear transfer reaction measurements at the ESR-for the investigation of the astrophysicalFinal publisher's version, 517 KBLicence: Taverne

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Doherty, D. T., Woods, P. J., Litvinov, Y. A., Najafi, M. A., Bagchi, S., Bishop, S., Bo, M., Brandau, C., Davinson, T., Dillmann, I., Estrade, A., Egelhof, P., Evdokimov, A., Gumberidze, A., Heil, M., Lederer, C., Litvinov, S. A., Lotay, G., Kalantar-Nayestanaki, N., ... Zamora, J. C. (2015). Nuclear transfer reaction measurements at the ESR-for the investigation of the astrophysical O-15(alpha,gamma)Ne-19 reaction. Physica Scripta, T166, Article 014007. https://doi.org/10.1088/0031-8949/2015/T166/014007

@article{3ef379bc4927403489a93e023f1b375a,

title = "Nuclear transfer reaction measurements at the ESR-for the investigation of the astrophysical O-15(alpha,gamma)Ne-19 reaction",

abstract = "Astrophysical x-ray bursts are thought to be a result of thermonuclear explosions on the atmosphere of an accreting neutron star. Between these bursts, energy is thought to be generated by the hot CNO cycles. The O-15(alpha,gamma)Ne-19 reaction is one reaction that allows breakout from these CNO cycles and into the rp-process to fuel outbursts. The reaction is expected to be dominated by a single 3/2(+) resonance at 4.033 MeV in Ne-19, however, limited information is available on this key state. This work reports on a pioneering study of the Ne-20(p, d)Ne-19 reaction, performed in inverse kinematics at the experimental storage ring (ESR) as a means of accessing the astrophysically important 4.033 MeV state in Ne-19. The unique, background free, high luminosity conditions of the storage ring were utilized for this, the first transfer reaction performed at the ESR. The results of this pioneering test experiment are presented along with suggestions for future measurements at storage ring facilities.",

keywords = "nuclear astrophysics, storage rings, transfer reactions",

author = "Doherty, \{D. T.\} and Woods, \{P. J.\} and Litvinov, \{Yu A.\} and Najafi, \{M. Ali\} and S. Bagchi and S. Bishop and M. Bo and C. Brandau and T. Davinson and I. Dillmann and A. Estrade and P. Egelhof and A. Evdokimov and A. Gumberidze and M. Heil and C. Lederer and Litvinov, \{S. A.\} and G. Lotay and N. Kalantar-Nayestanaki and O. Kiselev and C. Kozhuharov and T. Kroell and M. Mahjour-Shafei and M. Mutterer and F. Nolden and N. Petridis and U. Popp and R. Reifarth and C. Rigollet and S. Roy and M. Steck and Th Stoehlker and B. Streicher and S. Trotsenko and \{von Schmid\}, M. and Yan, \{X. L.\} and Zamora, \{J. C.\}",

year = "2015",

month = nov,

doi = "10.1088/0031-8949/2015/T166/014007",

language = "English",

volume = "T166",

journal = "Physica Scripta",

issn = "0031-8949",

publisher = "IoP Publishing",

}

Doherty, DT, Woods, PJ, Litvinov, YA, Najafi, MA, Bagchi, S, Bishop, S, Bo, M, Brandau, C, Davinson, T, Dillmann, I, Estrade, A, Egelhof, P, Evdokimov, A, Gumberidze, A, Heil, M, Lederer, C, Litvinov, SA, Lotay, G, Kalantar-Nayestanaki, N, Kiselev, O, Kozhuharov, C, Kroell, T, Mahjour-Shafei, M, Mutterer, M, Nolden, F, Petridis, N, Popp, U, Reifarth, R, Rigollet, C, Roy, S, Steck, M, Stoehlker, T, Streicher, B, Trotsenko, S, von Schmid, M, Yan, XL & Zamora, JC 2015, 'Nuclear transfer reaction measurements at the ESR-for the investigation of the astrophysical O-15(alpha,gamma)Ne-19 reaction', Physica Scripta, vol. T166, 014007. https://doi.org/10.1088/0031-8949/2015/T166/014007

TY - JOUR

T1 - Nuclear transfer reaction measurements at the ESR-for the investigation of the astrophysical O-15(alpha,gamma)Ne-19 reaction

AU - Doherty, D. T.

AU - Woods, P. J.

AU - Litvinov, Yu A.

AU - Najafi, M. Ali

AU - Bagchi, S.

AU - Bishop, S.

AU - Bo, M.

AU - Brandau, C.

AU - Davinson, T.

AU - Dillmann, I.

AU - Estrade, A.

AU - Egelhof, P.

AU - Evdokimov, A.

AU - Gumberidze, A.

AU - Heil, M.

AU - Lederer, C.

AU - Litvinov, S. A.

AU - Lotay, G.

AU - Kalantar-Nayestanaki, N.

AU - Kiselev, O.

AU - Kozhuharov, C.

AU - Kroell, T.

AU - Mahjour-Shafei, M.

AU - Mutterer, M.

AU - Nolden, F.

AU - Petridis, N.

AU - Popp, U.

AU - Reifarth, R.

AU - Rigollet, C.

AU - Roy, S.

AU - Steck, M.

AU - Stoehlker, Th

AU - Streicher, B.

AU - Trotsenko, S.

AU - von Schmid, M.

AU - Yan, X. L.

AU - Zamora, J. C.

PY - 2015/11

Y1 - 2015/11

N2 - Astrophysical x-ray bursts are thought to be a result of thermonuclear explosions on the atmosphere of an accreting neutron star. Between these bursts, energy is thought to be generated by the hot CNO cycles. The O-15(alpha,gamma)Ne-19 reaction is one reaction that allows breakout from these CNO cycles and into the rp-process to fuel outbursts. The reaction is expected to be dominated by a single 3/2(+) resonance at 4.033 MeV in Ne-19, however, limited information is available on this key state. This work reports on a pioneering study of the Ne-20(p, d)Ne-19 reaction, performed in inverse kinematics at the experimental storage ring (ESR) as a means of accessing the astrophysically important 4.033 MeV state in Ne-19. The unique, background free, high luminosity conditions of the storage ring were utilized for this, the first transfer reaction performed at the ESR. The results of this pioneering test experiment are presented along with suggestions for future measurements at storage ring facilities.

AB - Astrophysical x-ray bursts are thought to be a result of thermonuclear explosions on the atmosphere of an accreting neutron star. Between these bursts, energy is thought to be generated by the hot CNO cycles. The O-15(alpha,gamma)Ne-19 reaction is one reaction that allows breakout from these CNO cycles and into the rp-process to fuel outbursts. The reaction is expected to be dominated by a single 3/2(+) resonance at 4.033 MeV in Ne-19, however, limited information is available on this key state. This work reports on a pioneering study of the Ne-20(p, d)Ne-19 reaction, performed in inverse kinematics at the experimental storage ring (ESR) as a means of accessing the astrophysically important 4.033 MeV state in Ne-19. The unique, background free, high luminosity conditions of the storage ring were utilized for this, the first transfer reaction performed at the ESR. The results of this pioneering test experiment are presented along with suggestions for future measurements at storage ring facilities.

KW - nuclear astrophysics

KW - storage rings

KW - transfer reactions

U2 - 10.1088/0031-8949/2015/T166/014007

DO - 10.1088/0031-8949/2015/T166/014007

M3 - Article

SN - 0031-8949

VL - T166

JO - Physica Scripta

JF - Physica Scripta

M1 - 014007

ER -

Nuclear transfer reaction measurements at the ESR-for the investigation of the astrophysical O-15(alpha,gamma)Ne-19 reaction

Abstract

Keywords

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