The Ge72(n,γ) cross section was measured for neutron energies up to 300keV at the neutron time-of-flight facility n_TOF (CERN), Geneva, for the first time covering energies relevant to heavy-element synthesis in stars. The measurement was performed at the high-resolution beamline EAR-1, using an isotopically enriched GeO272 sample. The prompt capture γ rays were detected with four liquid scintillation detectors, optimized for low neutron sensitivity. We determined resonance capture kernels up to a neutron energy of 43keV, and averaged cross sections from 43 to 300keV. Maxwellian-averaged cross section values were calculated from kT=5 to 100keV, with uncertainties between 3.2% and 7.1%. The new results significantly reduce uncertainties of abundances produced in the slow neutron capture process in massive stars.
Measurement of the 72Ge(n,γ) cross section over a wide neutron energy range at the CERN n_TOF facility / Dietz M.; Lederer-Woods C.; Tattersall A.; Battino U.; Gunsing F.; Heinitz S.; Krticka M.; Lerendegui-Marco J.; Reifarth R.; Valenta S.; Aberle O.; Amaducci S.; 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.; Cerutti F.; Chen Y.H.; Chiaveri E.; Colonna N.; Cortes G.; Cortes-Giraldo M.A.; Cosentino L.; Damone L.A.; Diakaki M.; Domingo-Pardo C.; Dressler R.; Dupont E.; Duran I.; Fernandez-Dominguez B.; Ferrari A.; Ferreira P.; Finocchiaro P.; Furman V.; Gobel K.; Garcia A.R.; Gawlik A.; Gilardoni S.; Glodariu T.; Goncalves I.F.; Gonzalez-Romero E.; Griesmayer E.; Guerrero C.; Harada H.; Heyse J.; Jenkins D.G.; Jericha E.; Kappeler F.; Kadi Y.; Kahl D.; Kalamara A.; Kavrigin P.; Kimura A.; Kivel N.; Kokkoris M.; Kurtulgil D.; Leal-Cidoncha E.; Leeb H.; Lo Meo S.; Lonsdale S.J.; Macina D.; Manna A.; Marganiec J.; Martinez T.; Masi A.; Massimi C.; Mastinu P.; Mastromarco M.; 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.; Rubbia C.; Ryan J.A.; Sabate-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.; Vannini G.; Variale V.; Vaz P.; Ventura A.; Vlachoudis V.; Vlastou R.; Wallner A.; Warren S.; Weiss C.; Woods P.J.; Wright T.; Zugec P.. - In: PHYSICAL REVIEW C. - ISSN 2469-9985. - ELETTRONICO. - 103:4(2021), pp. 045809.1-045809.8. [10.1103/PhysRevC.103.045809]
Measurement of the 72Ge(n,γ) cross section over a wide neutron energy range at the CERN n_TOF facility
Lo Meo S.;Massimi C.Writing – Review & Editing
;Mingrone F.;
2021
Abstract
The Ge72(n,γ) cross section was measured for neutron energies up to 300keV at the neutron time-of-flight facility n_TOF (CERN), Geneva, for the first time covering energies relevant to heavy-element synthesis in stars. The measurement was performed at the high-resolution beamline EAR-1, using an isotopically enriched GeO272 sample. The prompt capture γ rays were detected with four liquid scintillation detectors, optimized for low neutron sensitivity. We determined resonance capture kernels up to a neutron energy of 43keV, and averaged cross sections from 43 to 300keV. Maxwellian-averaged cross section values were calculated from kT=5 to 100keV, with uncertainties between 3.2% and 7.1%. The new results significantly reduce uncertainties of abundances produced in the slow neutron capture process in massive stars.| File | Dimensione | Formato | |
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