Lithium and boron burning S(E)-factor measurements at astrophysical energies via the Trojan Horse Method

L. Lamia; C. Spitaleri; R. G. Pizzone; S. Cherubini; S. Degl’Innocenti; J. Grineviciute; M. Gulino; M. La Cognata; A. Mukhamedzhanov; S. Palmerini; L. Pappalardo; P.G. Prada Moroni; S.M.R. Puglia; G.G. Rapisarda; S. Romano; M.L. Sergi; E. Tognelli; A. Tumino

doi:10.1051/epjconf/20146607012

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Volume 66 (2014)

EPJ Web of Conferences, 66 (2014) 07012

Abstract

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Issue		EPJ Web of Conferences Volume 66, 2014 INPC 2013 – International Nuclear Physics Conference


Article Number		07012
Number of page(s)		4
Section		Nuclear Astrophysics
DOI		https://doi.org/10.1051/epjconf/20146607012
Published online		20 March 2014

EPJ Web of Conferences 66, 07012 (2014)
https://doi.org/10.1051/epjconf/20146607012

Lithium and boron burning S(E)-factor measurements at astrophysical energies via the Trojan Horse Method

L. Lamia¹^a, C. Spitaleri¹^,2, R. G. Pizzone², S. Cherubini¹^,2, S. Degl’Innocenti³^,4, J. Grineviciute¹, M. Gulino¹^,5, M. La Cognata¹, A. Mukhamedzhanov⁶, S. Palmerini¹, L. Pappalardo⁷, P.G. Prada Moroni³^,4, S.M.R. Puglia¹^,2, G.G. Rapisarda¹^,2, S. Romano¹^,2, M.L. Sergi¹^,2, E. Tognelli³^,4 and A. Tumino²^,5

¹ Dipartimento di Fisica e Astronomia, Università di Catania, Italy
² Laboratori Nazionali del Sud, INFN-LNS, Catania, Italy
³ Dipartimento di Fisica, Università di Pisa, Italy
⁴ INFN Sezione di Pisa, Italy
⁵ Università degli Studi di Enna ”Kore”, Italy
⁶ Cyclotron Institute, Texas A&M University, College Station, Texas
⁷ Dipartimento di Fisica e Scienze della Terra, Università di Ferrara, Italy

^a e-mail: llamia@lns.infn.it

Published online: 20 March 2014

Abstract

The residual amount of light elements lithium, beryllium and boron (LiBeB) abundances in stellar atmospheres has been largely accepted as one of the most powerful probes for understanding stellar structure and mixing phenomena. They are in fact gradually destroyed at different depths of stellar interior mainly by (p,α), thus their fate in stars is an incomparable tool for studying mixing processes. In order to avoid extrapolation procedures on the available direct S(E)-factor measurements, the Trojan Horse Method (THM) has been developed, allowing one to measure the bare nucleus S(E)-factor for astrophysically relevant reactions without experiencing Coulomb penetrability effects. Here, a summary on the recent ^6,7Li and ¹¹B TH investigations will be given and the corresponding results discussed.

© Owned by the authors, published by EDP Sciences, 2014

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