Nucleosynthesis Reactions With The High-intensity Saraf-lilit Neutron Source Article Swipe
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Nuclear physics
Nucleosynthesis
Neutron
Neutron capture
Physics
Neutron source
Proton
Lithium (medication)
Nuclear reaction
Medicine
Endocrinology
M. Paul
,
M. Tessler
,
T. Palchan
,
S. Halfon
,
Leonid Weissman
,
Nir Hazenshprung
,
A. Kreisel
,
T. Makmal
,
A. Shor
,
I. Silverman
,
Melina Avila Coronado
,
S. Almaraz-Calderon
,
Wei Jiang
,
Zheng‐Tian Lu
,
P. Müller
,
R. C. Pardo
,
K. E. Rehm
,
R D. Scott
,
R. Talwar
,
C. Ugalde
,
R. Vondrasek
,
Jake Zappala
,
D. Santiago-Gonzalez
,
P. Collon
,
Y. Kashiv
,
Mario Weigand
,
T. Heftrich
,
R. Reifarth
,
Daniel Veltum
,
Roland Purtschert
,
C. Guerrero
,
Jorge Lerendegui Marco
,
J. M. Quesada
,
U. Köster
,
D. Schumann
,
R. Dressler
,
Stephan Heinitz
,
Niko Kivel
,
Emilio Andrea Maugeri
·
YOU?
·
· 2017
· Open Access
·
· DOI: https://doi.org/10.22323/1.281.0139
· OA: W2793421007
YOU?
·
· 2017
· Open Access
·
· DOI: https://doi.org/10.22323/1.281.0139
· OA: W2793421007
We present a status report of recent neutron capture experiments performed with the mA-proton beam (1.92 MeV, 3 kW) of the Soreq Applied Research Accelerator Facility (SARAF) and the Liquid-Lithium Target (LiLiT). Experiments and preliminary results for (n,gamma) reactions on 36,38Ar, studied for the first time with 30-keV neutrons, on natKr, natCe and on radioactive targets 147Pm and 171Tm are described.
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