Proton beam energy calibration of the 3 MV Tandetron™ at IFIN-HH
Testov, D.A.; Straticiuc, M.; Söderström, P.-A.; Aogaki, S.; Andrei, R.-F.; Azhibekov, A.K.; Balabanski, D.L.; Ban, S-R.; Brezeanu, M.; Burducea, I.; Constantin, P.; Dhal, A.; Djourelov, N.; Florea, N.; Gavrilescu, A.; Guardo, L.; Iancu, D.; Ioannidis, S.; Kahl, D.; Kuncser, I.; Kurmanaliyev, Zh.; Kusoglu, A.; Lorusso, G.; Mauyey, B.; Morzabayev, A.; Nedelcu, C.V.; Nichita, D.; Niculae, S.; Parlea, P.; Paun, C.; Petruse, T.; Rotaru, A.; Roy, R.; Spataru, A.; State, A.N.; Toma, V.; Tozar, T.; Vasilca, V.
Дата:
2025
Аннотации:
The ELIGANT-TN long neutron counter, the ELISSA silicon strip array and the Mini-eTPC
active gas target detector all represent nuclear physics research tools constructed at Extreme Light
Infrastructure - Nuclear Physics (ELI-NP) for use in 𝛾-beam experiments. Currently, these three setups
are used at the charged particle accelerators of the “Horia Hulubei” National Institute for R&D in
Physics and Nuclear Engineering (IFIN-HH), for performing reaction cross-section measurements.
Accurate knowledge of the incident beam energy is of paramount importance for such studies, which
is why in the present article we report on a new proton beam energy calibration performed using the
following threshold reactions: 7Li(𝑝, 𝑛)
7Be, 13C(𝑝, 𝑛)
13N and 51V(𝑝, 𝑛)
51Cr. The measurements
were performed by varying the projectile energy across the key range of ∼ 1600–3200 keV. The results
demonstrate a linear dependence of the projectile energy on the terminal voltage.
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