76GE 76GA B- DECAY (30.5 S) 1971CA39 24NDS 202401
76GE H TYP=FUL$AUT=Balraj Singh, Jun Chen and Ameenah R. Farhan$
76GE2 H CIT=NDS 194, 3 (2024)$CUT=8-Jan-2024$
76GE c 1971Ca39: measured E|g, I|g. The level scheme is from RITZ-combination.
76GE2c No |g|g coincidences were reported
76GE c Others:
76GE c 2016Do05 (also 2014Sp05): {+76}Ga activity produced in
76GE2c {+9}Be({+76}Ge{+32+},X),E=130 MeV/nucleon, and separated by A1900
76GE3c fragment separator at NSCL-MSU. Secondary beam consisting of 73%
76GE4c {+76}Ga{+31+} and 27% {+74}Zn{+30+} was passed through the NSCL gas
76GE5c stopping station where primarily the {+76}Ga{+31+} beam was extracted
76GE6c and stopped in the gas cell. A scan of the activity as a function of
76GE7c mass of the extracted ions showed the molecular ion
76GE8c [{+76}Ga(H{-2}O)]{++} as the main activity delivered to the counting
76GE9c station. The {+76}Ga ions with an energy of |?40 keV and intensity of
76GEAc |?500 particles/s were implanted into an aluminum target foil. Measured
76GEBc total absorption gamma-ray (TAGS) spectrum using segmented NaI(Tl)(SuN)
76GECc detector, and electrons from {+76}Ga |b{+-} decay by a silicon surface
76GEDc barrier detector located inside the bore hole of the SuN detector. Also
76GEEc detected were |b|g-coincidences. First results from this experiment
76GEFc were published by 2014Sp05, where |b-Oslo method was used to deduce
76GEGc |g-strength function. Comparison of extracted Gamow-Teller strengths
76GEHc with shell-model calculations using jj4b and JUN45 interactions.
76GEIc Relevance to studies of neutrinoless double |b-decay of {+76}Ge.
76GE c 2016To01: measured E|g and I|g with a focus on the intensity of the
76GE2c 2040.7-keV |g ray emitted in the decay of {+76}Ga, isotope produced in
76GE3c {+76}Ge(n,p),E=6.2-21 MeV reaction. These results are relevant to the
76GE4c measurement of {+76}Ge 0|n|b|b decay by GERDA Collaboration. Also
76GE5c discussed experimental results of {+76}Ge(n,n'|g) reaction by the
76GE6c Kentucky group.
76GE c 2014Do08: in connection with the importance of 2040.7|g (from 3952
76GE2c level) for double beta decay experiments of {+76}Ge, |b decay of
76GE3c {+76}Ga was investigated by producing the source in {+76}Ge(p,n)
76GE4c reaction. Preliminary branching ratio of 2040.7|g is reported as
76GE5c 0.46% in comparison to 0.33% in 1971Ca39.
76GE c 2014Sp05: measured total-absorption spectrum using SUN detector
76GE2c at NSCL-MSU in order to deduce gamma-strength functions
76GE c 1972MaWL: measured E|g, I|g
76GE c T{-1/2} and source production: 1985Ta01, 1981Ru07, 1974Gr29,
76GE2c 1970OsZZ, 1966Se04, 1961Ta08
76GE c |b|g-coin: 1977Al17
76GE c |b{+-} strength functions: 1975Al11. |b{+-} systematics (1983Be56)
76GE cB $2016Do05 compared their experimental TAGS spectrum with that simulated
76GE2cB from |b feedings given in the {+76}Ga |b{+-} decay level scheme
76GE3cB from |g-ray data in 1971Ca39
76GE cB IB$Values from TAGS data in 2016Do05 are given in comments, authors
76GE2cB list intensity values below 0.0001% as zero in their Table I.
76GE cB $All log| {Ift} values are considered as tentative since the level
76GE2cB scheme is not considered as well established. These log| {Ift}
76GE3cB values cannot be used for definitive J|p assignments for {+76}Ge levels
76GE cG M,MR$From Adopted Gammas
76GE cG E(A)$Placement suggested by the evaluators
76GE cG RI(B)$1971Ca39 give 14.0 {I10}. In view of I|g(431|g)/I|g(976|g)=0.65
76GE2cG {I7} adopted from {+238}U({+76}Ge,{+76}Ge'|g) (2013To05), the
76GE3cG evaluators have adjusted the intensity of this |g ray from 1539 level.
76GE4cG In 1971Ca39, either the intensity of 431|g is overestimated or it has
76GE5cG another possible placement in the decay scheme. In the spectrum
76GE6cG shown by 1971Ca39, the 431|g-ray lies in the region of strong |g rays
76GE7cG from contaminants, whereas the 976|g in the spectrum is relatively
76GE8cG clear of the contaminants
76GE cG E(C)$913.2 {I4} in Adopted dataset taken from
76GE2cG {+238}U({+76}Ge,{+76}Ge'|g) and (n,n'|g). Value of 911.40 {I10} in
76GE3cG |b{+-} decay seems discrepant
76GE cG RI(D)$Part of it could be sum line also as suggested by E3 reduced
76GE2cG transition probabilities in (p,p') and (|a,|a') (evaluators)
76GE cG RI(E)$Preliminary value measured in 2014Do08 is |?0.7
76GE cL J$From the Adopted Levels
76GE cL E$From least-squares fit to E|g data
76GA P 0.0 2(-) 30.5 S 4 6916.3 20
76GA cP J,T$From {+76}Ga Adopted Levels
76GA cP QP$From 2021Wa16
76GE N 0.585 33 1 1
76GE cN NR$Summed |g-transition intensity=89 {I5}, allowing for <10% feeding
76GE2cN to the g.s., and 6.1% {I7} feeding to 4600, 4950 and 5350 levels
76GE3cN proposed by 2016Do05 from their TAGS data.
76GE PN 3
76GE G 1043.6 4 0.45 4
76GE2 G %IG=0.263 28
76GE G 1249.1 2 0.97 10
76GE2 G %IG=0.57 7
76GE G 2489.6 4 0.30 6
76GE2 G %IG=0.18 4
76GE G 3034.6 2 0.79 8
76GE2 G %IG=0.46 6
76GE G 3275.9 2 0.88 8
76GE2 G %IG=0.52 6
76GE G 3283.6 5 0.26 6
76GE2 G %IG=0.15 4
76GE G 3496.7 6 0.16 5
76GE2 G %IG=0.094 30
76GE G 3842.3 4 0.14 3
76GE2 G %IG=0.082 18
76GE G 3925.2 2 0.51 5
76GE2 G %IG=0.298 34
76GE G 3994.3 10 0.34 5
76GE2 G %IG=0.199 31
76GE L 0.0 0+
76GE B 10 LT 9.2 GT 1U?
76GES B EAV=3172.06 98
76GE cB IB$from TAGS data, 2016Do05 provide no information about experimental
76GE2cB or theoretical |b feeding to the ground state, which is possible from
76GE3cB an expected first-forbidden unique transition. Evaluators deduce
76GE4cB I|b<10% for centroid value of log| {If{+1u}t}=9.75 (2023Tu02)
76GE5cB for such transitions. Note that for minimum log| {If{+1u}t}=8.5,
76GE6cB I|b=40%. Such large feeding to g.s. is probably unlikely.
76GE L 562.93 3 2+
76GE B 12.7 15 6.9
76GES B EAV=2899.36 98
76GE cB IB$7.3 {I2} (from TAGS, 2016Do05)
76GE G 562.93 3 100 E2 0.00164
76GE2 G %IG=58.5 33
76GE L 1108.45 4 2+
76GE B 14.5 16 6.7
76GES B EAV=2634.40 98
76GE cB IB$11.7 {I9} (from TAGS, 2016Do05)
76GE G 545.51 3 39.4 20 E2+M1 +2.4 2 0.00175
76GE2 G %IG=23.1 18
76GE G 1108.41 8 24.0 5 E2 0.00028
76GE2 G %IG=14.0 8
76GE L 1410.08 5 4+
76GE B 0.34 22 10.1 1U
76GES B EAV=2487.70 97
76GE cB IB$0.34 {I4} (from TAGS, 2016Do05)
76GE G 847.15 5 5.3 3 E2 0.00053
76GE2 G %IG=3.10 25
76GE L 1539.46 6 3+
76GE B 3.8 4 7.1
76GES B EAV=2425.21 98
76GE cB IB$0.5 {I1} (from TAGS, 2016Do05)
76GE G 431.0 5 4.6 5 M1+E2 +1.86 +17-110.0029 9 B
76GE2 G %IG=2.69 33
76GE G 976.50 5 7.0 2 M1+E2 +2.61 20 0.00037
76GE2 G %IG=4.10 26
76GE L 1911.09 12 0+
76GE B 0.18 LT 10.1 GT 1U?
76GES B EAV=2245.49 97
76GE cB IB$0.21 {I4} (from TAGS, 2016Do05)
76GE G 1348.13 13 1.13 8 [E2] 0.00022
76GE2 G %IG=0.66 6
76GE L 2019.87 10 4+
76GE B 0.49 9 7.8
76GES B EAV=2192.28 97
76GE cB IB$0.11 {I5} (from TAGS, 2016Do05)
76GE G 911.40 10 1.52 10 [E2] 0.00044 C
76GE2 G %IG=0.89 8
76GE L 2284.22 24 (3)-
76GE G 1175.7 5 0.71 18
76GE2 G %IG=0.42 11
76GE L 2591.10 16 (1+,2+)
76GE B 1.09 12 7.2
76GES B EAV=1915.85 97
76GE cB IB$1.1 {I3} (from TAGS, 2016Do05)
76GE G 1051.7 2 0.71 10
76GE2 G %IG=0.42 6
76GE G 1482.5 3 0.75 11
76GE2 G %IG=0.44 7
76GE G 2591.0 4 0.41 7
76GE2 G %IG=0.24 4
76GE L 2654.51 21
76GE B 0.2 LT 7.9 GT ?
76GES B EAV=1885.21 98
76GE cB IB$<0 (from TAGS, 2016Do05)
76GE G 1546.0 4 0.65 13
76GE2 G %IG=0.38 8
76GE G 2091.9 4 0.27 6
76GE2 G %IG=0.16 4
76GE L 2692.40 8 3-
76GE B 0.40 16 7.6
76GES B EAV=1866.91 97
76GE cB IB$0.6 {I4} (from TAGS, 2016Do05)
76GE G 1282.9 4 0.43 LT &
76GE2 G %IG LT 0.25
76GE G 1583.9 5 0.30 10
76GE2 G %IG=0.18 6
76GE G 2129.46 8 3.34 10
76GE2 G %IG=1.95 13
76GE G 2691.6 4 0.23 6 [E3] 0.00050 D ?
76GE2 G %IG=0.14 4
76GE L 2747.76 8 (2)+
76GE B 6.1 4 6.4
76GES B EAV=1840.16 97
76GE cB IB$5.4 {I9} (from TAGS, 2016Do05)
76GE G 1208.02 13 2.32 17
76GE2 G %IG=1.36 13
76GE G 1639.30 10 8.40 20
76GE2 G %IG=4.91 30
76GE G 2185.20 17 0.75 6
76GE2 G %IG=0.44 4
76GE L 2768.76 14 2+
76GE B 0.67 9 7.3
76GES B EAV=1830.02 97
76GE cB IB$<0.0001 (from TAGS, 2016Do05)
76GE G 1358.9 6 0.28 9
76GE2 G %IG=0.16 6
76GE G 1660.30 14 1.17 8
76GE2 G %IG=0.68 6
76GE L 2841.57 13 2+
76GE B 0.43 9 7.5
76GES B EAV=1794.88 97
76GE cB IB$3.9 {I4} (from TAGS, 2016Do05)
76GE G 1732.70 25 1.10 10
76GE2 G %IG=0.64 7
76GE G 2278.80 17 0.67 5
76GE2 G %IG=0.39 4
76GE L 2919.79 7 1+
76GE B 9.1 6 6.1
76GES B EAV=1757.15 97
76GE cB IB$9.8 {I9} (from TAGS, 2016Do05)
76GE G 1811.10 12 1.27 7
76GE2 G %IG=0.74 6
76GE G 2356.88 12 3.74 16
76GE2 G %IG=2.19 16
76GE G 2919.85 10 13.8 5
76GE2 G %IG=8.1 5
76GE L 3141.51 7 1+
76GE B 2.1 LT 6.7 GT ?
76GES B EAV=1650.32 97
76GE cB IB$9 {I1} (from TAGS, 2016Do05)
76GE G 2578.55 9 3.40 10
76GE2 G %IG=1.99 13
76GE G 3141.40 10 6.42 32 [M1]
76GE2 G %IG=3.76 28
76GE L 3182.21 6 (2+)
76GE B 5.5 4 6.2 C
76GES B EAV=1630.73 97
76GE cB E$3580 {I150} from (2074|g)|b-coin (1977Al17)
76GE cB IB$7.4 {I9} (from TAGS, 2016Do05)
76GE G 1642.80 15 1.41 10
76GE2 G %IG=0.83 8
76GE G 2073.75 7 6.43 16
76GE2 G %IG=3.76 23
76GE cG E$2073.65 {I15} (2016To01)
76GE G 2619.20 10 3.41 10
76GE2 G %IG=2.00 13
76GE L 3231.8 4 4+ ?
76GE B 0.14 3 9.4 1U?
76GES B EAV=1611.37 98
76GE cB IB$0.7 {I2} (from TAGS, 2016Do05)
76GE G 2668.8 4 0.24 5 A ?
76GE2 G %IG=0.140 30
76GE L 3312.33 12 3-
76GE B 0.15 LT 7.7 GT ?
76GES B EAV=1568.16 97
76GE cB IB$1.8 {I2} (from TAGS, 2016Do05)
76GE G 1902.2 2 0.64 5
76GE2 G %IG=0.37 4
76GE G 2203.86 16 2.08 15
76GE2 G %IG=1.22 11
76GE L 3322.85 7 (2+)
76GE B 3.2 2 6.4
76GES B EAV=1563.10 97
76GE cB IB$2.9 {I3} (from TAGS, 2016Do05)
76GE G 1912.7 1 0.89 5
76GE2 G %IG=0.52 4
76GE G 2214.36 8 3.39 10
76GE2 G %IG=1.98 13
76GE G 2759.95 14 1.67 8
76GE2 G %IG=0.98 7
76GE L 3334.7 3 ?
76GE B 0.35 5 7.3 ?
76GES B EAV=1557.41 98
76GE cB IB$0.2 {I2} (from TAGS, 2016Do05)
76GE G 1924.6 3 0.30 4 ?
76GE2 G %IG=0.176 26
76GE G 3334.6 5 0.29 6 ?
76GE2 G %IG=0.17 4
76GE L 3409.19 19 (1,2,3)
76GE B 0.41 8 7.2 ?
76GES B EAV=1521.63 97
76GE cB IB$0.24 {I4} (from TAGS, 2016Do05)
76GE G 661.4 2 1.12 10 ?
76GE2 G %IG=0.66 7
76GE L 3477.65 17 (2+,3) ?
76GE B 4.4 12 6.2 ?
76GES B EAV=1488.78 97
76GE cB IB$1.6 {I2} (from TAGS, 2016Do05)
76GE G 335.9 5 8.0 20 ?
76GE2 G %IG=4.7 12
76GE G 2369.8 6 0.42 14 ?
76GE2 G %IG=0.25 8
76GE G 2914.6 2 1.12 9 ?
76GE2 G %IG=0.66 7
76GE L 3632.75 10 (2+)
76GE B 0.39 17 7.1
76GES B EAV=1414.44 96
76GE cB IB$2.8 {I4} (from TAGS, 2016Do05)
76GE G 1612.7 3 0.68 9
76GE2 G %IG=0.40 6
76GE G 1721.9 7 0.22 7
76GE2 G %IG=0.13 4
76GE G 2524.0 2 1.21 8
76GE2 G %IG=0.71 6
76GE G 3069.90 13 1.40 8
76GE2 G %IG=0.82 7
76GE L 3887.05 19 (3-)
76GE B 1.39 14 6.4
76GES B EAV=1292.91 96
76GE cB IB$3 {I1} (from TAGS, 2016Do05)
76GE G 2347.40 25 0.66 7
76GE2 G %IG=0.39 5
76GE G 2476.60 40 0.33 7
76GE2 G %IG=0.19 4
76GE G 2779.1 4 1.21 12
76GE2 G %IG=0.71 8
76GE G 3325.2 12 0.17 9
76GE2 G %IG=0.10 5
76GE L 3951.89 7 1-
76GE B 8.2 6 5.6
76GES B EAV=1262.00 96
76GE cB IB$12 {I1} (from TAGS, 2016Do05)
76GE G 1259.9 5 0.45 11 [E2] 0.00023
76GE2 G %IG=0.26 7
76GE G 2040.70 25 0.50 8 [E1] 0.00071 E
76GE2 G %IG=0.29 5
76GE cG E$2039.40 (2016To01)
76GE cG $Measured branching ratio from 2016To01:
76GE2cG I|g(2040):I|g(2843):I|g(3389)=7.1 {I12}:35.6 {I60}:57.3 {I98}
76GE G 2843.50 9 2.42 10 [E1] 0.00118
76GE2 G %IG=1.42 10
76GE cG E$2843.10 (2016To01)
76GE G 3388.75 12 4.29 25 [E1] 0.00145
76GE2 G %IG=2.51 21
76GE cG E$3388.43 (2016To01)
76GE G 3951.70 14 6.43 50 [E1] 0.00168
76GE2 G %IG=3.8 4
76GE cG E$3951.40 (2016To01)
76GE L 4122.3 4 (1,2+) ?
76GE B 0.74 7 6.6 ?
76GES B EAV=1180.93 97
76GE cB IB$1.4 {I2} (from TAGS, 2016Do05)
76GE G 3559.5 4 0.89 7 ?
76GE2 G %IG=0.52 5
76GE G 4121.8 5 0.38 5 ?
76GE2 G %IG=0.222 32
76GE L 4192.9 2 (2+,3) ?
76GE B 1.96 15 6.1 ?
76GES B EAV=1147.43 96
76GE cB IB$1.2 {I2} (from TAGS, 2016Do05)
76GE G 1273.05 10 1.82 11 ?
76GE2 G %IG=1.07 9
76GE G 2782.70 40 1.53 12 ?
76GE2 G %IG=0.90 9
76GE L 4239.4 2 (1,2,3) ?
76GE B 0.88 10 6.4 ?
76GES B EAV=1125.39 96
76GE cB IB$0.045 {I45} (from TAGS, 2016Do05)
76GE G 927.05 10 1.40 8 ?
76GE2 G %IG=0.82 7
76GE G 3130.7 6 0.32 6 ?
76GE2 G %IG=0.19 4
76GE L 4326.5 2 (1,2,3) ?
76GE B 1.33 10 6.2 ?
76GES B EAV=1084.17 95
76GE cB IB$2.4 {I4} (from TAGS, 2016Do05)
76GE G 1014.2 2 0.54 8 ?
76GE2 G %IG=0.32 5
76GE G 1634.0 2 1.73 8 ?
76GE2 G %IG=1.01 8
76GE L 4363.5 2 4+ ?
76GE B 1.40 14 6.1 ?
76GES B EAV=1066.69 95
76GE cB IB$0.2 {I2} (from TAGS, 2016Do05)
76GE G 885.83 10 2.00 15 ?
76GE2 G %IG=1.17 11
76GE G 1443.9 5 0.39 10 [M3] 0.0004312 ?
76GE2 G %IG=0.23 6
76GE L 4476.5 2 ?
76GE B 1.12 12 6.1 ?
76GES B EAV=1013.40 95
76GE cB IB$2.3 {I3} (from TAGS, 2016Do05)
76GE G 843.8 2 1.73 17 ?
76GE2 G %IG=1.01 12
76GE G 3913.3 5 0.19 4 ?
76GE2 G %IG=0.111 24
76GE L 4600
76GE cL E$this level corresponds to 4611 {I10} level in Adopted Levels,
76GE2cL which 2016Do05 included in their analysis
76GE B 3.4 6 5.5
76GES B EAV=955.36 94
76GE cB IB$from TAGS (2016Do05)
76GE L 4719.9 2 (2+,3,4+)
76GE B 0.90 9 6.0
76GES B EAV=899.23 94
76GE cB IB$0.31 {I7} (from TAGS, 2016Do05)
76GE G 1310.6 3 0.42 7 ?
76GE2 G %IG=0.25 4
76GE G 1878.3 2 0.55 6
76GE2 G %IG=0.32 4
76GE G 2435.6 3 0.56 7
76GE2 G %IG=0.33 5
76GE L 4784.1 3 (1,2,3) ?
76GE B 0.69 9 6.1 ?
76GES B EAV=869.27 95
76GE cB IB$0.54 {I9} (from TAGS, 2016Do05)
76GE G 1461.2 3 0.50 10 ?
76GE2 G %IG=0.29 6
76GE G 3675.60 45 0.68 7 ?
76GE2 G %IG=0.40 5
76GE L 4812.5 2 (2+,3) ?
76GE B 0.47 4 6.2 ?
76GES B EAV=856.05 94
76GE cB IB$<0.0001 (from TAGS, 2016Do05)
76GE G 1892.7 2 0.61 4 ?
76GE2 G %IG=0.357 31
76GE G 3402.4 3 0.20 3 ?
76GE2 G %IG=0.117 19
76GE L 4814.8 3 (1,2,3) ?
76GE B 0.88 10 6.0 ?
76GES B EAV=854.98 95
76GE cB IB$0.6 {I1} (from TAGS, 2016Do05)
76GE G 1182.1 3 0.77 11 ?
76GE2 G %IG=0.45 7
76GE G 1502.3 5 0.74 10 ?
76GE2 G %IG=0.43 6
76GE L 4950
76GE cL E$this level corresponds to 4936.07 {I20} level in Adopted Levels,
76GE2cL which 2016Do05 included in their analysis
76GE B 1.1 3 5.7
76GES B EAV=792.23 93
76GE cB IB$from TAGS (2016Do05)
76GE L 5122.48 14 (1,2,3)
76GE B 1.0 1 5.6
76GES B EAV=712.77 92
76GE cB IB$0.7 {I1} (from TAGS, 2016Do05)
76GE G 1489.6 4 0.35 10
76GE2 G %IG=0.21 6
76GE G 1940.30 14 1.04 7
76GE2 G %IG=0.61 6
76GE cG E$1940.49 {I15} (2016To01)
76GE G 1980.4 5 0.33 6
76GE2 G %IG=0.19 4
76GE L 5350
76GE cL E$new level introduced by 2016Do05 in the analysis of their TAGS data
76GE B 1.6 3 5.2
76GES B EAV=609.18 91
76GE cB IB$from TAGS (2016Do05)
76GE L 5522.6 2 (1,2,3)
76GE B 0.72 9 5.3
76GES B EAV=531.74 90
76GE cB IB$0.7 {I2} (from TAGS, 2016Do05)
76GE G 1282.9 4 0.43 LT & ?
76GE2 G %IG LT 0.25
76GE G 2680.9 3 0.49 5
76GE2 G %IG=0.287 34
76GE G 2868.1 2 0.53 7
76GE2 G %IG=0.31 5
76GE L 5663.37 15 (2+)
76GE B 0.87 9 5.1
76GES B EAV=469.49 88
76GE cB IB$0.7 {I3} (from TAGS, 2016Do05)
76GE G 2481.1 4 0.30 6
76GE2 G %IG=0.18 4
76GE G 2970.90 15 0.60 7
76GE2 G %IG=0.35 5
76GE G 3752.10 50 0.25 5
76GE2 G %IG=0.146 31
76GE G 4253.3 5 0.34 5
76GE2 G %IG=0.199 31
76GE L 5749.9 4 (1,2,3) ?
76GE B 0.30 5 5.4 ?
76GES B EAV=431.71 89
76GE cB IB$0.19 {I8} (from TAGS, 2016Do05)
76GE G 2981.2 4 0.31 6 ?
76GE2 G %IG=0.18 4
76GE G 3465.5 4 0.21 4 ?
76GE2 G %IG=0.123 25
76GE L 5883.0 3 (1,2,3) ?
76GE B 0.36 5 5.1 ?
76GES B EAV=374.42 87
76GE cB IB$0.2 {I2} (from TAGS, 2016Do05)
76GE G 2700.5 4 0.30 5 ?
76GE2 G %IG=0.176 31
76GE G 3190.6 3 0.32 4 ?
76GE2 G %IG=0.187 26
76GE L 6021.1 3 (1,2,3) ?
76GE B 0.44 7 4.8 ?
76GES B EAV=316.24 85
76GE cB IB$0.065 {I65} (from TAGS, 2016Do05)
76GE G 3328.7 8 0.30 9 ?
76GE2 G %IG=0.18 6
76GE G 3366.5 3 0.22 3 ?
76GE2 G %IG=0.129 19
76GE G 3736.90 45 0.24 6 ?
76GE2 G %IG=0.14 4
76GE L 6065.2 4 (1,2,3) ?
76GE B 0.39 7 4.8 ?
76GES B EAV=297.98 85
76GE cB IB$0.1 {I1} (from TAGS, 2016Do05)
76GE G 2882.9 9 0.21 7 ?
76GE2 G %IG=0.12 4
76GE G 3145.3 4 0.45 9 ?
76GE2 G %IG=0.26 6