TY - JOUR
T1 - Tests and calibrations of nuclear track detectors (CR39) for operation in high neutron flux
AU - Kading, E. E.
AU - Aviv, O.
AU - Eliyahu, I.
AU - Gai, M.
AU - Halfon, S.
AU - Hass, M.
AU - Howell, C. R.
AU - Kijel, D.
AU - Mishnayot, Y.
AU - Mukul, I.
AU - Perry, A.
AU - Shachar, Y.
AU - Seiffert, Ch
AU - Shor, A.
AU - Silverman, I.
AU - Stern, S. R.
AU - Stora, Th
AU - Ticehurst, D. R.
AU - Weiss, A.
AU - Weissman, L.
N1 - Publisher Copyright: © 2020 authors. Published by the American Physical Society. Published by the American Physical Society under the terms of the Creative Commons Attribution 4.0 International license. Further distribution of this work must maintain attribution to the author(s) and the published article's title, journal citation, and DOI.
PY - 2020/6/3
Y1 - 2020/6/3
N2 - The neutron beams produced by the Soreq Applied Research Accelerator Facility (SARAF) operating with the liquid lithium target (LiLiT) present scientific opportunities in nuclear astrophysics. Of interest are measurements (in our setup) of 1.5 to 3.0 MeV alpha-particles and 1.5 MeV protons, emanating from the interaction of neutrons with Be7. The deduced cross sections, are important for understanding the cosmological "Primordial Li7 Problem."However, major experimental challenges arise when measuring such low-energy charged particles due to the high flux neutron beams produced by the LiLiT (up to ∼5×1010 n/sec/cm2). We present a study of the operation of CR39 nuclear track detectors (NTD), in such a high neutron flux. The CR39 plates were energy calibrated with 3.18 MeV alpha-particles from a Gd148 standard radioactive source, and by using Rutherford backscattering of 1.5 MeV alpha-particles as well as 1.5 MeV protons from a thin (100 μg/cm2) gold foil. The plates were etched in a 6.25 N NaOH solution for 30 minutes at 90∘C to produce micron-sized circular pits. The alpha (3.18 MeV) and proton (1.5 MeV) etch efficiencies were measured to be 93.3±6.1% and 8.7±1.3%, respectively. After etching, the plates were scanned with a fully automated microscope. A segmentation algorithm that addressed the challenges posed by the intense neutron beam was developed. A measurement of the interaction of cold neutrons with CR39 showed that the O17(n,α)C14 reaction inside the CR39 was a major source of background. Since the tracks were formed inside the CR39, this background extended up to the full energy deposit of ∼2.1 MeV. This neutron-beam-induced background inside the CR39 plates, observed here for the first time, will most likely be the limiting factor for observing ∼2 MeV alpha-particles with CR39, in measurements of small cross sections (below a few mb) of (n,α) reactions. However, in measurements of larger cross sections, this O17(n,α) "background line"can be used as an internal self-calibration of alpha-particles with energies up to ∼2.1MeV, and thus allow to correct for piece-to-piece variations in the energy-to-track size calibration of CR39 plates.
AB - The neutron beams produced by the Soreq Applied Research Accelerator Facility (SARAF) operating with the liquid lithium target (LiLiT) present scientific opportunities in nuclear astrophysics. Of interest are measurements (in our setup) of 1.5 to 3.0 MeV alpha-particles and 1.5 MeV protons, emanating from the interaction of neutrons with Be7. The deduced cross sections, are important for understanding the cosmological "Primordial Li7 Problem."However, major experimental challenges arise when measuring such low-energy charged particles due to the high flux neutron beams produced by the LiLiT (up to ∼5×1010 n/sec/cm2). We present a study of the operation of CR39 nuclear track detectors (NTD), in such a high neutron flux. The CR39 plates were energy calibrated with 3.18 MeV alpha-particles from a Gd148 standard radioactive source, and by using Rutherford backscattering of 1.5 MeV alpha-particles as well as 1.5 MeV protons from a thin (100 μg/cm2) gold foil. The plates were etched in a 6.25 N NaOH solution for 30 minutes at 90∘C to produce micron-sized circular pits. The alpha (3.18 MeV) and proton (1.5 MeV) etch efficiencies were measured to be 93.3±6.1% and 8.7±1.3%, respectively. After etching, the plates were scanned with a fully automated microscope. A segmentation algorithm that addressed the challenges posed by the intense neutron beam was developed. A measurement of the interaction of cold neutrons with CR39 showed that the O17(n,α)C14 reaction inside the CR39 was a major source of background. Since the tracks were formed inside the CR39, this background extended up to the full energy deposit of ∼2.1 MeV. This neutron-beam-induced background inside the CR39 plates, observed here for the first time, will most likely be the limiting factor for observing ∼2 MeV alpha-particles with CR39, in measurements of small cross sections (below a few mb) of (n,α) reactions. However, in measurements of larger cross sections, this O17(n,α) "background line"can be used as an internal self-calibration of alpha-particles with energies up to ∼2.1MeV, and thus allow to correct for piece-to-piece variations in the energy-to-track size calibration of CR39 plates.
UR - http://www.scopus.com/inward/record.url?scp=85095520451&partnerID=8YFLogxK
U2 - https://doi.org/10.1103/PhysRevResearch.2.023279
DO - https://doi.org/10.1103/PhysRevResearch.2.023279
M3 - مقالة
SN - 2643-1564
VL - 2
JO - PHYSICAL REVIEW RESEARCH
JF - PHYSICAL REVIEW RESEARCH
IS - 2
M1 - 023279
ER -