135TE 135TE IT DECAY (0.511 US) 1980KA30 08NDS 200803
135TE H TYP=FUL$AUT=BALRAJ SINGH, ALEXANDER A. RODIONOV and YURI L. KHAZOV$
135TE2 H CIT=NDS 109, 517 (2008)$CUT=22-Jan-2008$
135TE c Other: 1974ClZX: measured yield of {+135}Te isomer from {+252}Cf SF
135TExc decay.
135TE D THEORY: 1971Pe07
135TE c Total decay energy of 1504 keV {I95} calculated (by RADLIST code)
135TE2c from level scheme agrees with the expected value of 1555 keV
135TE cG I(K|a| x ray)=28.2 {I30} (1980Ka30)
135TE cL E$From E|g's.
135TE cL J$From 'adopted levels', based mainly on shell-model predictions
135TE P 1555.3 4 (19/2-) 0.511 US 20
135TE cP E$ 1554.89 {I16} in 'adopted levels'
135TE N 0.96 5 1.0 1.0
135TE cN NR$I(|g+ce)(325|g)=100
135TE PN 3
135TE L 0.0 (7/2-)
135TE cL $Configuration=(|pg{-7/2}{+2}){-0+}~#|nf{-7/2} (1980Ka30);
135TE2cL 0+ refers to g.s. in {+134}Te
135TE L 1180.3 3 (11/2-) 0.3 NS LE
135TE cL $Configuration=(|pg{-7/2}{+2}){-2+}~#|nf{-7/2} (1980Ka30);
135TE2cL 2+ refers to first 2+ state in {+134}Te
135TE cL T$|g|g(t) (1980Ka30)
135TE G 1180.3 3 105 6 100 C
135TE L 1505.3 4 (15/2-) 0.6 NS LE
135TE cL $Configuration=(|pg{-7/2}{+2}){-4+}~#|nf{-7/2} (1980Ka30);
135TE2cL 4+ refers to first 4+ state in {+134}Te
135TE cL T$|g|g(t) (1980Ka30)
135TE G 325.0 1 100 5 [E2] 0.0298 100 C
135TE L 1555.3 4 (19/2-) 0.511 US 20 M
135TE cL E$ 1554.89 {I16} in 'adopted levels'
135TE cL $Configuration=(|pg{-7/2}{+2}){-6+}~#|nf{-7/2} (1980Ka30);
135TE2cL 6+ refers to first 6+ state in {+134}Te
135TE cL T$from delayed |g timing, weighted average of
135TE2cL 0.512 |ms {I22} (2001Mi22) and 0.510 |ms {I20} (1980Ka30).
135TE3cL Others: 1970Gr38, 1970Jo20, 1974ClZX, 1977SeZJ, 1978Ba47
135TE G 50.0 1 4.7 5 E2 20.7 100 C
135TE cG |a(K)exp=8.8 {I11}, |a(exp)=21 {I3}
135TE cG M$from |a(K)exp=8.8 {I11} (absolute K| x ray and |g-ray counting) and
135TE2cG |a(exp)=21 {I3} (intensity balance)