ADOPTED LEVELS for 62Sc
Authors: Balraj Singh, Huang Xiaolong, and Wang Xianghan | Citation: Nucl. Data Sheets 204, 1 (2025) | Cutoff date: 30-Jun-2023
Full ENSDF file | Adopted Levels (PDF version)
| Q(β-)=19150 keV SY | S(n)= 1260 keV SY | S(p)= 18990 keV SY | Q(α)= -17050 keV SY | ||
| Reference: 2021Wa16 |
| E(level) (keV) | T1/2(level) |
| 0 | % β- = 100 % β-n = ? % β-2n = ? % B-3N = ? % B-4N = ? |
Additional Level Data and Comments:
2018Ta17: 62Sc formed by fragmentation of 70Zn30+ beam at 345 MeV/nucleon from RIKEN-RIBF accelerator complex. Rotating target of 9Be of 15 mm thickness were located at the BigRIPS two-stage ion separator. Particle identification (PID) was achieved by measuring time of flight (tof), energy loss (ΔE), total kinetic energy (TKE), and magnetic rigidity (Bρ) through event by event analysis of reaction products. Particles of interest were stopped in a 76-mm thick CsI crystal after passing through six 1-mm thick silicon p-i-n diodes, while the magnetic rigidity (Bρ) of the fragments was reconstructed from position and angle measurements at foci using two sets of position-sensitive parallel plate avalanche counters (PPACs). Optimization was done using LISE++ simulation code.
Q-value: Estimated uncertainties (2021Wa16): 720 for Q(β-), 850 for S(n), 1000 for S(p), 920 for Q(α)
Q-value: S(2n)=4280 780, Q(β-n)=15610 670 (syst,2021Wa16). S(2p)=43480 (Theory, 2019Mo01). Q(β-2n)=13270 650, Q(β-3n)=8980 670, Q(β-4n)=5950 630, Q(β-5n)=1350 640 (syst, deduced by evaluator from relevant mass excesses in 2021Wa16)