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Classical novae are important contributors to the abundances of key isotopes, such as the radioactive ^{18}F, whose observation by satellite missions could provide constraints on nucleosynthesis models in novae. The ^{17}O(p,\gamma)^{18}F reaction plays a critical role in the synthesis of both oxygen and fluorine isotopes but its reaction rate is not well determined because of the lack of experimental data at energies relevant to novae explosions. In this study, the reaction cross section has been measured directly for the first time in a wide energy range Ecm = 200 - 370 keV appropriate to hydrogen burning in classical novae. In addition, the E=183 keV resonance strength, \omega \gamma=1.67\pm0.12 \mueV, has been measured with the highest precision to date. The uncertainty on the ^{17}O(p,\gamma)^{18}F reaction rate has been reduced by a factor of 4, thus leading to firmer constraints on accurate models of novae nucleosynthesis

First Direct Measurement of the ^{17}O(p,γ)^{18}F Reaction Cross-Section at Gamow Energies for Classical Novae

D. A. Scott;A. Caciolli;A. DiLeva;A. Formicola;M. Aliotta;M. Anders;D. Bemmerer;C. Broggini;M. Campeggio;P. Corvisiero;Z. Elekes;Z.s. Fülöp;GERVINO, Gianpiero;A. Guglielmetti;C. Gustavino;G.y. Gyürky;G. Imbriani;M. Junker;M. Laubenstein;R. Menegazzo;M. Marta;E. Napolitani;P. Prati;V. Rigato;V. Roca;E. Somorjai;C. Salvo;O. Straniero;F. Strieder;T. Szücs;F. Terrasi;D. Trezzi

2012-01-01

Abstract

Classical novae are important contributors to the abundances of key isotopes, such as the radioactive ^{18}F, whose observation by satellite missions could provide constraints on nucleosynthesis models in novae. The ^{17}O(p,\gamma)^{18}F reaction plays a critical role in the synthesis of both oxygen and fluorine isotopes but its reaction rate is not well determined because of the lack of experimental data at energies relevant to novae explosions. In this study, the reaction cross section has been measured directly for the first time in a wide energy range Ecm = 200 - 370 keV appropriate to hydrogen burning in classical novae. In addition, the E=183 keV resonance strength, \omega \gamma=1.67\pm0.12 \mueV, has been measured with the highest precision to date. The uncertainty on the ^{17}O(p,\gamma)^{18}F reaction rate has been reduced by a factor of 4, thus leading to firmer constraints on accurate models of novae nucleosynthesis

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Scheda completa (DC)

	Anno
	
			2012
		
	Titolo rivista
	
			PHYSICAL REVIEW LETTERS
		
	N. Volume
	
			109
		
	Pagine (da)
	
			202501-1
		
	Pagine (a)
	
			202501-5
		
	DOI
	
			https://dx.doi.org/10.1103/PhysRevLett.109.202501
		
	Parole Chiave
	
			Solar and Stellar Astrophysics (astro-ph.SR), Nuclear Experiment (nucl-ex)
		
	Tutti gli autori
	
			D. A. Scott; A. Caciolli; A. DiLeva; A. Formicola; M. Aliotta; M. Anders; D. Bemmerer; C. Broggini; M. Campeggio; P. Corvisiero; Z. Elekes; Zs. Fülöp; G. Gervino; A. Guglielmetti; C. Gustavino; Gy. Gyürky; G. Imbriani; M. Junker; M. Laubenstein; R. Menegazzo; M. Marta; E. Napolitani; P. Prati; V. Rigato; V. Roca; E. Somorjai; C. Salvo; O. Straniero; F. Strieder; T. Szücs; F. Terrasi; D. Trezzi
		
	Appare nelle tipologie:
	
			03A-Articolo su Rivista

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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2318/118524

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