ADOPTED LEVELS for 167Pt
Authors: Balraj Singh and Jun Chen | Citation: Nucl. Data Sheets 191, 1 (2023) | Cutoff date: 22-Aug-2023
Full ENSDF file | Adopted Levels (PDF version)
S(n)= 10040 keV SY | S(p)= 740 keV SY | Q(α)= 7160 keV 60 | |||
Reference: 2021WA16 |
E(level) (keV) | Jπ(level) | T1/2(level) |
0 | (7/2-) | 0.9 ms 2 % α = 100 |
Additional Level Data and Comments:
E(level) | Jπ(level) | T1/2(level) | Comments |
0 | (7/2-) | 0.9 ms 2 % α = 100 | Only the α decay has been detected by 1996Bi07, 2004Ke06 and 2019Hi06. From theoretical calculations in 2019Mo01, T1/2(β)=0.2167 s implying %ε+%β+≈0.4. From Gross theory of β decay, T1/2(β)≈0.9 s (1973Ta30) implying %ε+%β+=0.1. |
1996Bi07: 167Pt produced and identified in 92Mo(78Kr,3n) reaction at E(78Kr)=357, 384 MeV, followed by mass separation using fragment mass analyzer at ORNL cyclotron facility. 92Mo target was 97% enriched. Measured Eα and half-life of the decay of 167Pt.
2004Ke06: 167Pt produced in 96Ru(78Kr,3nα),E=361-391 MeV, followed by recoil mass separation using RITU separator at the University of Jyvaskyla cyclotron facility. Measured Eα and half-life of the decay of 167Pt.
2019Hi06: 167Pt produced in 96Ru(78Kr,3nα),E=390 MeV, followed by recoil mass separation using MARA separator at the University of Jyvaskyla cyclotron facility. Measured Eα and half-life of the decay of 167Pt.
No reference was found in the NSR database for theoretical structure calculation for 167Pt.
Q-value: ΔS(n)=430, ΔS(p)=370 (syst,2021Wa16)
Q-value: S(2n)=22580 500, S(2p)=-420 370, Q(εp)=11390 310, Q(ε)=10320 310 (syst,2021Wa16)
Q-value: Q(α)=7154 7 from weighted averaged Eα=6983 7 from Eα=6985 8 (2019Hi06), 6979 7 (2004Ke06), 6988 10 (1996Bi07); if 6983α is a g.s. to g.s. transition