Boron-Proton Nuclear-Fusion Enhancement Induced in Boron-Doped Silicon Targets by Low-Contrast Pulsed Laser

A. Picciotto; D. Margarone; A. Velyhan; P. Bellutti; J. Krasa; A. Szydlowsky; G. Bertuccio; Y. Shi; A. Mangione; J. Prokupek; A. Malinowska; E. Krousky; J. Ullschmied; L. Laska; M. Kucharik; G. Korn

doi:10.1103/PhysRevX.4.031030

Physical Review X (Aug 2014)

Boron-Proton Nuclear-Fusion Enhancement Induced in Boron-Doped Silicon Targets by Low-Contrast Pulsed Laser

A. Picciotto,
D. Margarone,
A. Velyhan,
P. Bellutti,
J. Krasa,
A. Szydlowsky,
G. Bertuccio,
Y. Shi,
A. Mangione,
J. Prokupek,
A. Malinowska,
E. Krousky,
J. Ullschmied,
L. Laska,
M. Kucharik,
G. Korn

Affiliations

A. Picciotto
D. Margarone
A. Velyhan
P. Bellutti
J. Krasa
A. Szydlowsky
G. Bertuccio
Y. Shi
A. Mangione
J. Prokupek
A. Malinowska
E. Krousky
J. Ullschmied
L. Laska
M. Kucharik
G. Korn

DOI: https://doi.org/10.1103/PhysRevX.4.031030
Journal volume & issue: Vol. 4, no. 3
p. 031030

Abstract

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We show that a spatially well-defined layer of boron dopants in a hydrogen-enriched silicon target allows the production of a high yield of alpha particles of around 10^{9} per steradian using a nanosecond, low-contrast laser pulse with a nominal intensity of approximately 3×10^{16} W cm^{−2}. This result can be ascribed to the nature of the long laser-pulse interaction with the target and with the expanding plasma, as well as to the optimal target geometry and composition. The possibility of an impact on future applications such as nuclear fusion without production of neutron-induced radioactivity and compact ion accelerators is anticipated.

Published in Physical Review X

ISSN: 2160-3308 (Online)
Publisher: American Physical Society
Country of publisher: United States
LCC subjects: Science: Physics
Website: https://journals.aps.org/prx/

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