76SE 76BR EC+B+ DECAY (16.14 H) 2018MOZZ 24NDS 202401
76SE H TYP=FUL$AUT=Balraj Singh, Jun Chen and Ameenah R. Farhan$
76SE2 H CIT=NDS 194, 3 (2024)$CUT=8-Jan-2024$
76SE DG CC$FROM BrIcc v2.3e (17-Jun-2020) 2008Ki07, "Frozen Orbitals" appr.
76SE DE EAV,LOGFT$FROM BetaShape v2.3.1 (Dec-2023) 2023MO21.
76SE c 2018MoZZ: {+76}Br source obtained from CARIBU facility at ANL.
76SE2c Measured E|g, I|g, |g|g-coin and |g|g(|q) using Gammasphere array
76SE3c of HPGe detectors. Deduced an extensive decay scheme, including
76SE4c several new levels, and with a total of 448 |g rays, all placed
76SE5c in the decay scheme, dwarfing the earlier, fairly detailed, known
76SE6c decay schemes, based on the placement of about 100 |g rays.
76SE c Previous studies:
76SE c 1974Na17: {+76}Br produced in bombardment of As with 40-MeV |a
76SE2c particles, followed by chemical separation. Measured E|g, I|g,
76SE3c |g|g-coin using Ge detector and annular NaI(Tl) crystal for Compton
76SE4c suppression. Main impurity was from {+77}Br decay. A total of 103
76SE5c |g rays were reported, with six of these unplaced.
76SE c 1974HeYW (also 1969Cl11): measured energies and intensities of 59
76SE2c |g rays. No decay scheme was reported.
76SE c 1974MuZB: measured E|g, I|g
76SE c 1969Dz01 (also 1970Dz09, 1971Dz08, 1975VyZX from the same group):
76SE2c measured E|g, I|g, |g|g-coin using Ge-Ge system, |b|g-coin. A total of
76SE3c 125 |g rays were reported by 1969Dz01. In 1975VyZX, ten additional
76SE4c |g rays were reported.
76SE c Others:
76SE c 2004Sh17 (also 2004Li62, 2005Sh59, 2007Ch89, 2013Sh07 containing
76SE2c results of the same experimental data and some of the
76SE3c spectroscopic figures as in 2004Sh17): measured E|g, I|g,
76SE4c |g|g-coin with Ge detectors. For singles data, a Compton-suppressed
76SE5c system with six NaI(Tl) detectors was used. A total of 139 |g rays
76SE6c were reported, with the claim of 37 new |g rays and 15 new levels;
76SE7c 18 |g rays were unplaced. There was large contamination from decays of
76SE8c {+77}Br and {+82}Br isotopes. Some internal inconsistencies exist in
76SE9c the data presented in this paper, for example a |g ray at 575.0 keV
76SEBc with I|g=3.6 is assigned as a new transition from a newly populated
76SECc level. But a strong |g ray of 574.6 keV is known to belong to {+77}Br
76SEDc decay, implying that only a weak component of this line may belong
76SEEc to {+76}Br decay. Some of the other new |g rays claimed were already
76SEFc reported in previous publications. The I|g values for some of the |g
76SEFc rays are listed as exactly the same as in either previous studies or
76SEGc NDS evaluations, which casts some doubt about the independent nature
76SEHc of results presented in their papers.
76SE c 2007Qa02: measurement of absolute intensity of positrons for
76SE2c applications in PET tomography
76SE c 1971La01: measured E|g, I|g, |b|g-coin
76SE c 1971FuZP (thesis): measured E|g, I|g
76SE c 1962Ku06, 1960Bu22, 1959Gi46, 1955Th01, 1952Fu04: |g-ray studies
76SE c |g and ce for E0 transitions: 1986Gi12, 1983Pa10
76SE c |b and |b|g-coin studies: 1963Sa26, 1962Ku06, 1959Gi46
76SE c |g|g(|q): 1982MuZV. Ge(Li)-NaI(Tl) system
76SE c |g(|q,H,temp): 1992Gr20 (also 1988Wh03,1988Gr26). |g(|q)
76SE2c of 1130|g and 2951|g used to deduce |m for {+76}Br g.s.
76SE c Hyperfine fields in iron through NMR studies: 1993Oh09
76SE c The ce data are from 1970Dz09 obtained with a magnetic spectrometer
76SE c First detailed decay scheme was published by 1969Dz01. The
76SE2c level scheme presented here is from 2018MoZZ, which
76SE3c is based on previous level scheme by 1969Dz01 and 1974Na17, but
76SE4c greatly enhanced, with about 350 additional transitions.
76SE cE TI$From |g+ce intensity balance at each level
76SE cG $The following E|g(I|g) reported by different groups have been omitted
76SE2cG here by the evaluators for lack of confirmation in 1974Na17 where
76SE3cG the spectral quality is the best of all the studies:
76SE cG $2004Sh17: 498(0.22) (from 2670 level); 505.0(0.31) (from 3160 level);
76SE2cG 834.1(0.10), 1068.6(0.12) (from 4020 level); 1089.1(0.08) (from 3604
76SE3cG level); 1122.6(0.05), 1152.0(0.12) (from 3970 level); 1461(0.18),
76SE4cG 1518.6(0.12) (from 4174 level); 1827.9(0.15) (from 2951 level);
76SE5cG 1981.5(0.05) (from 3312 level); 2329.3(0.08), 2411.1(0.08),
76SE6cG 2655.6(0.12), 2808.2(0.20), 2843.4(0.20), 2862.4(0.10), 2984.8(0.08),
76SE7cG 3637.0(0.10), 3671.2(0.03), 4084.9(0.02), 4534(0.007), 4577(0.007)
76SE cG $1974MuZB: 209.7(0.08), 281.4(0.22), 309.2(0.19), 318.4(0.18),
76SE2cG 575.1(1.3), 1069.1(0.42).
76SE cG $1971La01: 248, 832.0(4.5), 1050, 1074, 1088, 1161, 1342(0.8),
76SE2cG 1489(3.9), 1661, 1689.5, 1997, 2555, 3625, 3860, 3910, 3940, 4140,
76SE3cG 4420, 4570.
76SE cG $1969Dz01 (or in 1970Dz09, 1971Dz08, 1975VyZX): 498(0.22) (from 2670
76SE2cG level); 505.0(0.31) (from 3160 level; same values listed in 2004Sh17);
76SE3cG 546.5(0.22) (in 1975VyZX); 636(0.10); 641(0.19) (from 2429 level);
76SE4cG 797(0.10) and 913 (0.07) (both from 2127 level); 812.5(0.19);
76SE5cG 897(0.23), 1280(0.10) and 3072(0.06) (all from 3070 level); 923 and
76SE6cG 1661(0.19) (from 3351 level); 1161(0.22) (from 2950 level); 1060(0.06);
76SE7cG 1145(0.08), 1193(0.14); 1253(0.11) and 1538(0.23) (all from 4606
76SE8cG level); 1271(0.08); 1288(0.07) (from 3459 level); 1298(0.12);
76SE9cG 1308(0.25) (from 2429 level); 1324(0.06) and 1532(0.08) (both from 2655
76SEAcG level); 1461(0.18); 1642(0.18); 1661(0.19) (from 3351 level);
76SEBcG 1882(0.18); 1901(0.16); 1991(0.11); 2338(0.12) (from 3556 level);
76SECcG 2235(0.18); 2299(0.19); 2627(0.17) (from 2631 level); 2757(0.10)
76SEDcG (from 3971 level); 2837(0.15); 2947(1.5); 3064(0.10); 3508(0.08);
76SEEcG 3881(0.02) (from 4436 level); 4065(0.03); 4084(0.02).
76SEFcG Some of these |g rays are from 1975VyZX, but some others are not listed
76SEGcG in this communication
76SE cG $1969Cl11: 831.1, 1488.5, 1578.7, 2281.2, 2329.2, 2334.0,
76SE2cG 2348.7, 2439.0, 2617.6, 3023.4
76SE cG E,RI$From 2018MoZZ, unless otherwise stated. Values are also available
76SE2cG in 1974Na17, 2004Sh17, 1969Dz01, 1969Cl11 but are less complete and
76SE3cG less precise.
76SE cG M,MR$From Adopted Gammas. Some adopted values are taken from this
76SE2cG dataset deduced based on |g|g(|q) and ce data as given under comments.
76SE cG E(X),RI(X)$From 1974Na17
76SE cL $Following levels proposed in different studies have been
76SE2cL omitted here due to sufficient confirmation, the gamma rays
76SE3cL proposed to emanate from these levels have either not been seen
76SE4cL in 1974Na17 and 2018MoZZ or have been reassigned:
76SE cL $1969Dz01: 4065, 4163, 4440
76SE cL $1971La01: 1883, 1942, 2048, 2890, 2990, 3910, 4140, 4420, 4570.
76SE cL $2004Sh17: 3312, 3527, 4438
76SE cL E$From a least-squares fit to E|g data
76SE cL J$From Adopted Levels
76BR P 0.0 1- 16.14 H 20 4963 9
76BR cP J,T$From the Adopted Levels of {+76}Br
76BR cP QP$From 2021Wa16
76SE N 0.734 13 1.0 1.0 1.0
76SE cN NR$A 5% {I1} |e+|b{++} branch to the g.s. is deduced from the
76SE2cN ratio I|b(g.s.)/I|b(559 level)=0.22 {I3} (1971Dz08) and
76SE3cN intensity balance at each level in the decay scheme. Results are
76SE4cN consistent with ratio I|g(|g{++-})/I|g(559|g)=1.45 {I5} (1971Dz08).
76SE5cN Measured positron emission intensity=58.2% {I19} (2007Qa02),
76SE6cN compared with 56.6% {I16} in the decay scheme presented here
76SE PN 3
76SE G 604.4 3 0.20 2 X
76SE G 2310.7 10 0.10 1 X
76SE G 4432.0 20 0.08 5 X
76SE cG E$others: 4440 {I3} (1969Dz01, 1975VyZX); 4437.7 {I10} in 2004Sh17
76SE L 0.0 0+
76SE E 4.9 100.094 199.01 +11-9 5 1
76SES E EAV=1794 4$CK=0.01662 24$CL=0.001839 27$CM+=3.54E-4 5
76SE cE E$5002 {I20} (1971Dz08)
76SE cE TI$a 5% {I1} |e+|b{++} branch to the g.s. is deduced from the
76SE2cE ratio I|b(g.s.)/I|b(559 level)=0.22 {I3} (1971Dz08) and
76SE3cE intensity balance at each level in the decay scheme.
76SE L 559.12 4 2+
76SE E 21.5 90.647 288.071 28 22.1 9
76SES E EAV=1528 4$CK=0.0258 4$CL=0.00286 4$CM+=5.52E-4 8
76SE cE E$4462 {I50} (1971Dz08)
76SE G 559.12 10 100 2 E2 1.97E-3 3 C
76SES G KC=0.001747 24$LC=0.0001872 26$MC=2.91E-5 4
76SES G NC=2.452E-6 34
76SE L 1122.26 6 0+
76SE E 2.20 170.114 98.70 4 2.31 17
76SES E EAV=1263 4$CK=0.0436 7$CL=0.00483 8$CM+=9.31E-4 14
76SE G 563.21 10 4.95 22 E2 1.92E-3 3 C
76SES G KC=0.001710 24$LC=0.0001832 26$MC=2.85E-5 4
76SES G NC=2.399E-6 34
76SE cG RI$others: 3.90 {I20} in 1974Na17, 12.0 {I15} in 1974HeYW (probably an
76SE2cG impurity), 5.6 3 in 1975VyZX and 4.8 8 in 2004Sh17
76SE cG $(563|g)(559|g)(|q): A{-2}=+0.269, A{-4}=+0.815 (2018MoZZ)
76SE cG $(563|g)(559|g)(|q): A{-2}=+0.207 {I11}, A{-4}=+0.90 {I5} (1982MuZV)
76SE G 1122.3 3 E0 0.00082
76SE cG E,TI$from 1986Gi12. I(|g+ce) is per 100 decays of {+76}Br
76SE cG $ce(K)(1122)/ce(K)(563|g)=0.12 {I2} (1986Gi12); ce(K)(1122)/Ig(563)=
76SE2cG 0.00026 {I4}4 (1983Pa10)
76SE cG $X(E0/E2)=0.023 {I4} (1986Gi12); |r(E0)=0.17 {I4} (1986Gi12),
76SE2cG 0.19 {I4} (1983Pa10)
76SE L 1216.32 4 2+
76SE E ?
76SE cE TI$intensity balance gives -1.0 {I11}, consistent with no |e feeding
76SE G 657.09 10 22.2 9 E2+M1(+E0) +5.2 2 1.23E-3 2 C
76SE2 G EKC=1.67E-3 15 (1970Dz09)$ EKC=1.04E-3 6 (1986Gi12)
76SES G KC=0.001090 15$LC=0.0001158 16$MC=1.801E-5 25
76SES G NC=1.524E-6 21
76SE cG $(657|g)(559|g)(|q): A{-2}=-0.161, A{-4}=+0.242; |d=+7.5 {I+987-42}
76SE2cG (2018MoZZ)
76SE cG $(657|g)(559|g)(|q): A{-2}=-0.186 {I10}, A{-4}=+0.130 {I16} (1982MuZV).
76SE2cG These values give |d=+6 {I1} or +0.65 {I5}
76SE cG $ce(K)(E0/E2)|<0.058 (1986Gi12)
76SE cG $X(E0/E2)|<0.14, |r(E0)|<0.41 (1986Gi12)
76SE G 1216.23 10 12.1 6 E2 C
76SES G CC=0.000281 4$KC=0.0002408 34$LC=2.508E-5 35$MC=3.90E-6 5
76SES G NC=3.33E-7 5$IPC=1.091E-5 15
76SE L 1330.95 5 4+
76SE E 0.25 40.091 1112.15 7 0.34 4
76SES E EAV=1206 4$CK=0.236 4$CL=0.0266 4$CM+=0.00513 7
76SE G 771.74 11 1.07 5 E2 C
76SES G CC=0.000800 11$KC=0.000712 10$LC=7.52E-5 11$MC=1.170E-5 16
76SES G NC=9.93E-7 14
76SE L 1689.22 5 3+
76SE E ?
76SE cE TI$intensity balance gives -0.4 {I5}, consistent with no |e feeding
76SE G 358.14 10 0.270 14 [M1+E2] 0.0059 21 C
76SES G KC=0.0053 19$LC=5.7E-4 22$MC=8.9E-5 33
76SES G NC=7.5E-6 27
76SE G 472.84 11 2.52 12 M1+E2 +3.20 +27-240.00316 5 C
76SES G KC=0.00281 4$LC=0.000303 5$MC=4.71E-5 7
76SES G NC=3.95E-6 6
76SE cG $(473|g)(1216|g)(|q): A{-2}=+0.029, A{-4}=-0.051; |d=+3.20 {I+27-24}
76SE2cG (2018MoZZ)
76SE G 1129.92 10 6.60 27 M1+E2 +1.08 10 C
76SE2 G EKC=2.83E-4 34 (1986Gi12)
76SES G CC=0.000315 4$KC=0.000279 4$LC=2.91E-5 4$MC=4.52E-6 6
76SES G NC=3.86E-7 5$IPC=1.695E-6 30
76SE cG $(1130|g)(559|g)(|q): A{-2}=+0.147, A{-4}=-0.046; |d=+1.89 {I+19-18}
76SE2cG (2018MoZZ)
76SE cG $(1130|g)(559|g)(|q): A{-2}=+0.237 {I29}, A{-4}=+0.065 (1982MuZV).
76SE2cG Deduced |d=+0.45 to +1.5
76SE L 1787.83 4 2+
76SE E 0.53 130.062 148.80 +12-10 0.59 13
76SES E EAV=953 4$CK=0.0927 17$CL=0.01028 19$CM+=0.00198 3
76SE G 456.82 11 0.0871 41 C
76SE G 571.47 11 0.290 18 (M1(+E2)) +0.13 12 1.83E-3 3 C
76SES G KC=0.001628 25$LC=0.0001742 27$MC=2.71E-5 4
76SES G NC=2.283E-6 35
76SE cG $(571|g)(1216|g)(|q): A{-2}=-0.171, A{-4}=+0.274; |d=+6.8 {I+41-20}
76SE2cG (2018MoZZ)
76SE G 665.40 10 0.983 42 [E2] C
76SE G 1228.64 10 2.99 12 M1+E2 -0.51 5 C
76SES G CC=0.000261 4$KC=0.0002237 31$LC=2.316E-5 33$MC=3.60E-6 5
76SES G NC=3.09E-7 4$IPC=9.85E-6 15
76SE cG $(1229|g)(559|g)(|q): A{-2}=+0.366, A{-4}=+0.047; |d=-0.186 {I+46-52}
76SE2cG (2018MoZZ)
76SE cG $(1229|g)(559|g)(|q): A{-2}=+0.230 {I22}, A{-4}=+0.08 {I5}
76SE2cG (1982MuZV). Deduced |d=-2.5 {I2} or +0.02 {I2}, which
76SE3cG disagrees with |d value from {+76}As |b{+-}.
76SE G 1787.81 11 0.777 22
76SE L 1791.66 5 0+
76SE cL J$|g|g(|q) (2018MoZZ)
76SE G 575.30 11 1.28 11 (E2) 1.81E-3 3 C
76SES G KC=0.001607 23$LC=0.0001719 24$MC=2.67E-5 4
76SES G NC=2.253E-6 32
76SE cG $(575|g)(1216|g)(|q): A{-2}=+0.332, A{-4}=+0.948 (2018MoZZ)
76SE G 1232.56 12 0.181 15 (E2) C
76SES G CC=0.000276 4$KC=0.0002340 33$LC=2.435E-5 34$MC=3.79E-6 5
76SES G NC=3.23E-7 5$IPC=1.376E-5 19
76SE cG $(1232|g)(559|g)(|q): A{-2}=+0.309, A{-4}=+0.824 (2018MoZZ)
76SE L 2026.53 7 4+
76SE E 0.035 100.042 1911.93 +16-12 0.077 21
76SES E EAV=891 4$CK=0.478 6$CL=0.0540 7$CM+=0.01043 12
76SE G 239.11 10 0.063 20 [E2] 0.0333 5 C
76SEF G FL=1787.83
76SES G KC=0.0293 4$LC=0.00335 5$MC=0.000520 7
76SES G NC=4.25E-5 6
76SE cG E$poor fit, level energy difference=238.70
76SE G 695.21 45 0.0268 87 E2+M1 +1.7 +6-1 C
76SES G CC=0.000999 27$KC=0.000889 24$LC=9.39E-5 26$MC=1.46E-5 4
76SES G NC=1.240E-6 33
76SE G 809.99 10 0.061 17 E2 C
76SES G CC=0.000706 10$KC=0.000628 9$LC=6.63E-5 9$MC=1.031E-5 14
76SES G NC=8.75E-7 12
76SE L 2127.56 4 (2)+
76SE G 335.85 10 0.0861 27 [E2] 0.0100614 C
76SES G KC=0.00891 13$LC=0.000986 14$MC=0.0001531 21
76SES G NC=1.270E-5 18
76SE G 339.62 10 0.298 65 [M1+E2] 0.0070 27 C
76SES G KC=0.0062 24$LC=6.8E-4 27$MC=1.1E-4 4
76SES G NC=8.8E-6 34
76SE G 438.37 14 0.641 60 C
76SE G 796.44 26 0.0213 47 C
76SE G 911.11 13 0.0677 20 C
76SE G 1005.06 22 0.0490 54 C
76SE G 1568.25 10 1.43 8 C
76SE cG $(1568|g)(559|g)(|q): A{-2}=+0.244, A{-4}=-0.014; |d=+0.004 {I+94-103}
76SE2cG (2018MoZZ)
76SE G 2127.69 20 0.239 20
76SE L 2170.99 5 (0+)
76SE cL J$|g|g(|q) (2018MoZZ)
76SE E 0.033 140.0071 259.63 +20-14 0.040 14
76SES E EAV=778 4$CK=0.1560 31$CL=0.01731 34$CM+=0.00334 6
76SE G 382.92 44 0.0113 30 [E2] 0.00647 9 C
76SES G KC=0.00574 8$LC=0.000629 9$MC=9.76E-5 14
76SES G NC=8.14E-6 12
76SE G 954.35 28 0.0533 27 C
76SE G 1611.71 12 0.328 13 C
76SE cG $(1611|g)(559|g)(|q): A{-2}=+0.285, A{-4}=+0.894 (2018MoZZ)
76SE L 2429.49 5 3-
76SE E 0.08794 0.10 199.4 GE 0.19 19 ?
76SES E EAV=686 4$CK=0.474 7$CL=0.0531 7$CM+=0.01026 13
76SE G 302.00 17 0.0172 16 [E1] 0.00313 4 C
76SES G KC=0.00279 4$LC=0.000291 4$MC=4.52E-5 6
76SES G NC=3.83E-6 5
76SE G 403.14 10 0.0475 50 C
76SE G 740.12 12 0.212 20 (E1+M2) -0.21 12 C
76SES G CC=0.00040 9$KC=0.00036 8$LC=3.7E-5 8$MC=5.8E-6 13
76SES G NC=5.0E-7 11
76SE G 1098.54 37 0.0082 7 C
76SE G 1213.05 10 2.50 20 (E1+M2) +0.025 20 C
76SES G CC=0.0001821 26$KC=0.0001136 17$LC=1.169E-5 17$MC=1.818E-6 27
76SES G NC=1.556E-7 23$IPC=5.48E-5 8
76SE cG $(1213|g)(559|g): A{-2}=+0.031 {I5}, A{-4}=+0.009 {I11} (1982MuZV).
76SE G 1870.24 15 0.100 5 (E1+M2) +0.17 3 C
76SES G CC=0.000589 9$KC=5.91E-5 16$LC=6.06E-6 16$MC=9.42E-7 25
76SES G NC=8.08E-8 22$IPC=0.000523 9
76SE G 2429.68 20 0.0612 50 [E3]
76SES G CC=0.000437 6$KC=9.90E-5 14$LC=1.025E-5 14$MC=1.596E-6 22
76SES G NC=1.367E-7 19$IPC=0.000326 5
76SE L 2515.06 5 2+
76SE E 0.09 40.039 128.78 +18-13 0.13 4
76SES E EAV=622 4$CK=0.263 5$CL=0.0292 6$CM+=0.00563 10
76SE G 387.66 49 0.0042 8 C
76SE G 723.37 25 0.0526 66 C
76SE G 727.04 10 0.684 30 M1+E2 +0.22 5 C
76SES G CC=0.000756 11$KC=0.000674 10$LC=7.03E-5 11$MC=1.095E-5 16
76SES G NC=9.37E-7 14
76SE cG $(727|g)(1787|g)(|q): A{-2}=+0.110, A{-4}=+0.068; |d=+0.188 {I52}
76SE2cG (2018MoZZ)
76SE G 825.47 53 0.0227 27 C
76SE G 1298.60 12 0.0067 3 C
76SE G 1392.96 56 0.0142 24 C
76SE G 1955.77 11 0.389 20 (M1+E2) -0.21 +5-6 C
76SES G CC=0.000348 5$KC=9.18E-5 13$LC=9.45E-6 13$MC=1.471E-6 21
76SES G NC=1.262E-7 18$IPC=0.000245 4
76SE cG $(1955|g)(559|g)(|q): A{-2}=+0.375, A{-4}=+0.053
76SE cG M$adopted value from |d=-0.205 {I+53-60} (2018MoZZ)
76SE L 2558.80 9
76SE E 0.235 90.110 48.306 +29-28 0.345 10
76SES E EAV=602 4$CK=0.281 6$CL=0.0312 6$CM+=0.00603 11
76SE G 1342.30 14 0.358 9 C
76SE G 1999.74 10 0.112 5 C
76SE L 2604.46 8 1+,2+
76SE E 0.05 40.027 148.89 +32-19 0.08 4
76SES E EAV=582 4$CK=0.302 6$CL=0.0336 7$CM+=0.00648 12
76SE G 816.47 17 0.0143 24 C
76SE G 1388.13 27 0.0664 33 C
76SE G 2045.49 70 0.232 10 M1+E2 -3.0 +14-60 C
76SE cG $(2045|g)(559|g)(|q): A{-2}=+0.206, A{-4}=+0.538; |d=-3.0 {I+14-60}
76SE2cG (2018MoZZ)
76SE G 2604.10 41 0.0021 1
76SE L 2655.76 4 1
76SE E ?
76SE cE TI$intensity balance gives -0.01 {I9}, consistent with no |e feeding
76SE G 484.82 33 0.0301 25 C
76SE G 527.83 79 0.0160 31 C
76SE G 864.00 11 0.0354 42 C
76SE G 867.73 15 0.433 10 D(+Q) +0.013 20 C
76SE cG RI$uncertainty of 0.001 in 2018MoZZ increased to 0.010 by evaluators
76SE cG $(868|g)(1787|g)(|q): A{-2}=-0.265, A{-4}=+0.033; |d=+0.013 {I20}
76SE2cG (2018MoZZ)
76SE G 1439.34 11 0.964 40 D+Q -0.043 19 C
76SE cG $(1439|g)(1216|g)(|q): A{-2}=-0.202, A{-4}=-0.045; |d=-0.043 {I19}
76SE2cG (2018MoZZ)
76SE G 1533.25 20 0.0786 31 D C
76SE G 2096.63 20 2.04 10 D(+Q) -0.043 +43-42 C
76SE cG $(2096|g)(559|g)(|q): A{-2}=-0.202, A{-4}=-0.045; |d=-0.043 {I+43-42}
76SE2cG (2018MoZZ)
76SE G 2655.93 21 0.157 7
76SE L 2670.31 4 2-
76SE E 0.65 150.39 67.71 +9-8 1.04 16
76SES E EAV=553 4$CK=0.335 6$CL=0.0372 7$CM+=0.00719 13
76SE G 882.23 10 0.578 60 (E1) C
76SES G CC=2.9E-4 8$KC=2.6E-4 7$LC=2.7E-5 7$MC=4.2E-6 12
76SES G NC=3.6E-7 10
76SE G 980.88 13 0.466 44 C
76SE G 1453.83 10 1.28 9 (E1+M2) +0.045 19 C
76SES G CC=0.000309 4$KC=8.34E-5 13$LC=8.57E-6 13$MC=1.333E-6 20
76SES G NC=1.141E-7 17$IPC=0.0002151 30
76SE cG $(1454|g)(1216|g)(|q): A{-2}=+0.217, A{-4}=+0.022; |d=+0.045 {I19}
76SE2cG (2018MoZZ)
76SE G 2111.11 20 3.59 14(E1+M2) +0.047 12 C
76SES G CC=0.000758 11$KC=4.64E-5 7$LC=4.75E-6 7$MC=7.39E-7 11
76SES G NC=6.33E-8 9$IPC=0.000706 10
76SE cG $(2111|g)(559|g)(|q): A{-2}=+0.214, A{-4}=-0.012; |d=+0.047 {I12}
76SE2cG (2018MoZZ)
76SE G 2670.57 38 0.0082 11 [M2]
76SES G CC=0.000460 6$KC=8.79E-5 12$LC=9.07E-6 13$MC=1.412E-6 20
76SES G NC=1.212E-7 17$IPC=0.000362 5
76SE L 2812.46 5 (3+)
76SE E 0.0079 340.027 1510.05 +26-17 0.035 15 1U
76SES E EAV=517 4$CK=0.683 6$CL=0.0769 7$CM+=0.01487 14
76SE G 1123.07 17 0.0595 67 C
76SE G 1481.48 16 0.0241 28 C
76SE G 1596.19 50 0.250 11 C
76SE G 2253.38 26 0.0599 69 C
76SE L 2817.59 7 (2+)
76SE E 0.026 80.024 48.87 +10-9 0.050 9
76SES E EAV=487 4$CK=0.421 8$CL=0.0468 9$CM+=0.00904 15
76SE G 1486.67 13 0.0015 4 C
76SE G 1601.11 48 0.114 7 C
76SE G 2258.55 63 0.0753 43 C
76SE G 2817.20 28 0.0007 1
76SE L 2829.68 19 (1,2)
76SE E 0.0211 260.0199 158.94 5 0.041 3
76SES E EAV=482 4$CK=0.429 8$CL=0.0477 9$CM+=0.00921 15
76SE G 1041.18 32 0.0552 35 C
76SE G 2829.99 24 0.0003 1
76SE L 2859.95 7 4-
76SE G 430.67 11 0.0260 66 M1+E2 -0.7 +4-12 0.0031 9 C
76SES G KC=0.0028 8$LC=2.9E-4 9$MC=4.6E-5 14
76SES G NC=3.9E-6 11
76SE G 1170.73 24 0.0084 12 C
76SE G 1528.72 10 0.030 18 (E1(+M2))0.1 LT C
76SE L 2869.65 6 (1+,2+)
76SE E 0.028 40.029 78.75 +8-7 0.057 8
76SES E EAV=464 4$CK=0.455 8$CL=0.0507 9$CM+=0.00978 16
76SE G 1653.18 10 0.0738 34 C
76SE G 2310.65 25 0.132 6 C
76SE G 2869.71 22 0.0323 15
76SE L 2950.495 35 1+
76SE E 6.01 258.3 46.269 +32-31 14.3 5
76SES E EAV=429 4$CK=0.512 8$CL=0.0570 9$CM+=0.01100 17
76SE G 294.60 17 0.0138 30 C
76SE G 779.48 10 0.0367 36 C
76SE G 822.92 31 0.0332 56 C
76SE G 1158.68 13 0.210 26 C
76SE G 1733.96 19 0.0429 57 C
76SE G 1828.22 39 0.076 23 C
76SE G 2391.32 6 7.03 28 M1+E2 -0.058 +4-5 C
76SE cG E$weighted average of 2391.42 {I20} (2018MoZZ) and
76SE2cG 2391.29 {I6} (1974Na17).
76SE2 G EKC=0.72E-4 24 (1970Dz09)
76SES G CC=0.000509 7$KC=6.41E-5 9$LC=6.58E-6 9$MC=1.024E-6 14
76SES G NC=8.79E-8 12$IPC=0.000437 6
76SE cG $(2391|g)(559|g)(|q): A{-2}=-0.184, A{-4}=-0.008; |d=-0.058 {I+4-5}
76SE2cG (2018MoZZ)
76SE G 2950.54 5 12.8 5 (M1)
76SE cG E$weighted average of 2950.41 {I20} (2018MoZZ) and 2950.55 {I5}
76SE2cG (1974Na17).
76SE2 G EKC=0.59E-4 12 (1970Dz09)
76SES G CC=0.000731 10$KC=4.47E-5 6$LC=4.58E-6 6$MC=7.13E-7 10
76SES G NC=6.12E-8 9$IPC=0.000681 10
76SE L 2975.25 6 (2+,3,4+)
76SE E 0.0088 320.013 79.06 +21-15 0.022 8
76SES E EAV=418 4$CK=0.530 8$CL=0.0590 9$CM+=0.01138 17
76SE G 847.51 11 0.0124 12 C
76SE G 1286.04 11 0.0746 74 C
76SE G 1644.28 12 0.0068 7 C
76SE G 1758.90 12 0.0051 5 C
76SE G 2416.30 21 0.0074 7 C
76SE L 3069.94 5 2+
76SE E 7.1 415.2 85.952 34 22.3 9
76SES E EAV=377 4$CK=0.600 8$CL=0.0668 9$CM+=0.01290 17
76SE G 257.63 12 0.0130 21 C
76SE G 399.59 52 0.410 26 C
76SE G 414.14 10 0.0215 17 C
76SE G 640.46 31 0.0351 63 C
76SE G 942.15 11 0.361 24(M1(+E2)) +0.04 5 C
76SES G CC=0.000431 6$KC=0.000384 5$LC=3.99E-5 6$MC=6.21E-6 9
76SES G NC=5.32E-7 7
76SE cG $(942|g)(2127|g)(|q): A{-2}=+0.221, A{-4}=+0.016; |d=+0.039 {I+51-53}
76SE2cG (2018MoZZ)
76SE G 1380.56 8 4.13 39 C
76SE cG E$weighted average of 1380.57 {I24} (2018MoZZ), 1380.56 {I8}
76SE2cG (1974Na17).
76SE G 1853.64 9 23.2 10 M1+E2 +0.035 4 C
76SE cG E$weighted average of 1853.45 {I11} (2018MoZZ), 1853.68 {I5} (1974Na17)
76SE2 G EKC=0.95E-4 18 (1970Dz09)
76SES G CC=0.000313 4$KC=0.0001013 14$LC=1.043E-5 15$MC=1.623E-6 23
76SES G NC=1.393E-7 19$IPC=0.0001994 28
76SE cG $(1854|g)(1216|g)(|q): A{-2}=+0.224, A{-4}=+0.003; |d=+0.035 {I4}
76SE2cG (2018MoZZ)
76SE cG $(1854|g)[657|g](559|g)(|q): A{-2}=+0.086 {I24}, A{-4}=+0.02 {I4}
76SE2cG (1982MuZV)
76SE G 2510.86 8 2.58 12 (M1+E2) +0.069 6 C
76SES G CC=0.000557 8$KC=5.88E-5 8$LC=6.04E-6 8$MC=9.40E-7 13
76SES G NC=8.07E-8 11$IPC=0.000491 7
76SE cG E$weighted average of 2510.92 {I22} (2018MoZZ), 2510.85 {I8} (1974Na17)
76SE cG $(2510|g)(559|g)(|q): A{-2}=+0.198, A{-4}=+0.002; |d=+0.069 {I6}
76SE2cG (2018MoZZ)
76SE G 3070.08 20 0.0150 9
76SE L 3105.86 5 (3-)
76SE E 0.0014 40.016 510.04 +17-13 0.017 5
76SES E EAV=387 4$CK=0.809 3$CL=0.0914 4$CM+=0.01766 11
76SE G 1774.80 10 0.0281 17 C
76SE G 1889.77 11 0.0192 14 C
76SE G 2546.97 20 0.0891 47 C
76SE L 3160.40 5 (2+)
76SE E 1.67 105.12 306.38 4 6.79 32
76SES E EAV=338 4$CK=0.666 8$CL=0.0742 9$CM+=0.01433 16
76SE G 209.92 10 0.0716 33 C
76SE G 290.79 35 0.0066 7 C
76SE G 347.88 10 0.0509 67 C
76SE G 490.03 12 0.480 31 C
76SE G 504.54 10 0.316 15 C
76SE G 730.74 11 0.92 11 C
76SE G 1032.66 11 1.12 7 C
76SE G 1372.27 13 0.846 34 C
76SE G 1471.10 7 3.85 36 C
76SE cG E$weighted aveage of 1470.99 {I11} (2018MoZZ), 1471.14 {I7} (1974Na17)
76SE G 1830.80 15 0.0276 23 C
76SEF G FL=1330.95
76SE cG E$poor fit, level energy difference=1829.43
76SE G 1944.18 10 0.654 27 (M1(+E2)) +0.05 6 C
76SE cG $(1944|g)(1216|g)(|q): A{-2}=+0.213, A{-4}=-0.061; |d=+0.047 {I+54-56}
76SE2cG (2018MoZZ)
76SE G 2601.36 20 1.03 4 (M1+E2) +0.149 22 C
76SE cG $(2601|g)(559|g)(|q): A{-2}=+0.138, A{-4}=+0.032; |d=+0.149 {I22}
76SE2cG (2018MoZZ)
76SE L 3192.14 7 (3)+
76SE E 0.0048 160.017 78.84 +18-14 0.022 7
76SES E EAV=324 4$CK=0.688 8$CL=0.0767 9$CM+=0.01482 16
76SE G 1502.94 10 0.0600 58 C
76SE G 1861.17 12 0.0068 5 C
76SE G 1976.16 19 0.0103 8 C
76SE G 2633.31 25 0.0060 8 C
76SE L 3220.01 7 (2+,3+)
76SE G 790.18 22 0.0384 72 C
76SE G 1530.32 43 0.0023 4 C
76SE G 1888.95 36 0.0256 15 C
76SE G 2660.91 40 0.147 28 C
76SE L 3260.16 9
76SE E 0.079 50.387 187.45 +4-3 0.466 19
76SES E EAV=295 4$CK=0.734 7$CL=0.0818 8$CM+=0.01580 15
76SE G 309.77 12 0.201 9 [D,E2] C
76SE G 604.33 10 0.435 20 C
76SE L 3267.91 6 (2+,3,4+)
76SE E 0.0033 100.017 68.81 +17-13 0.020 6
76SES E EAV=291 4$CK=0.739 7$CL=0.0824 8$CM+=0.01590 15
76SE G 1578.57 14 0.0105 11 C
76SE G 1936.77 10 0.0463 45 C
76SE G 2051.79 23 0.0168 10 C
76SE G 2709.26 20 0.0394 29 C
76SE L 3269.16 5 (1-,2)
76SE E 0.135 100.70 57.19 4 0.83 5
76SES E EAV=291 4$CK=0.739 7$CL=0.0825 8$CM+=0.01593 15
76SE G 163.35 11 0.0253 19 C
76SE G 318.74 10 0.135 6 C
76SE G 456.75 16 0.0256 35 C
76SE G 598.78 10 0.902 58 C
76SE G 613.35 10 0.107 5 C
76SE G 1141.62 14 0.0284 24 C
76SE L 3295.70 11 (1+,2+)
76SE E 0.00402 270.0239 128.64 +4-3 0.0279 12
76SES E EAV=279 4$CK=0.755 6$CL=0.0843 7$CM+=0.01627 14
76SE G 1124.33 13 0.0027 2 C
76SE G 2737.07 24 0.0242 13 C
76SE G 3296.14 20 0.0111 4
76SE L 3297.05 15 (1+,2+)
76SE E 0.0019 50.0116 318.96 +13-11 0.0135 31
76SES E EAV=279 4$CK=0.756 6$CL=0.0844 7$CM+=0.01629 14
76SE G 1509.23 16 0.0082 42 C
76SE G 2174.66 30 0.0102 7 C
76SE L 3351.80 4 (2)+
76SE E 1.08 78.81 326.044 30 9.89 33
76SES E EAV=256 4$CK=0.787 6$CL=0.0878 6$CM+=0.01695 13
76SE G 191.44 30 0.035 27 C
76SE G 401.30 11 0.0482 34 C
76SE G 539.25 14 0.0123 11 C
76SE G 681.44 10 0.694 45 C
76SE G 695.95 10 0.756 38 C
76SE G 747.28 13 0.123 9 C
76SE G 836.62 10 0.525 26 C
76SE G 922.21 11 0.0427 63 C
76SE G 1180.71 10 0.175 12 C
76SE G 1224.19 12 0.422 27 C
76SE G 1559.98 10 0.741 62 C
76SE G 1564.10 57 0.0366 17 C
76SE G 2135.63 8 1.33 13 (M1+E2) -0.042 10 C
76SES G CC=0.000411 6$KC=7.83E-5 11$LC=8.05E-6 11$MC=1.252E-6 18
76SES G NC=1.075E-7 15$IPC=0.000323 5
76SE cG E$weighted average of 2135.55 {I20} (2018MoZZ), 2135.64 {I8} (1974Na17)
76SE cG $(2135|g)(1216|g)(|q): A{-2}=-0.203, A{-4}=-0.004; |d=-0.042 {I10}
76SE2cG (2018MoZZ)
76SE G 2229.91 22 0.0325 24 C
76SE G 2792.72 6 8.34 33 M1+E2 -0.060 19 C
76SE cG E$weighted average of 2792.68 {I22} (2018MoZZ), 2792.72 {I6} (1974Na17)
76SE2 G EKC=0.56E-4 14 (1970Dz09)
76SES G CC=0.000670 9$KC=4.90E-5 7$LC=5.03E-6 7$MC=7.82E-7 11
76SES G NC=6.72E-8 9$IPC=0.000615 9
76SE cG $(2792|g)(559|g)(|q): A{-2}=-0.181, A{-4}=+0.010; |d=-0.060 {I19}
76SE2cG (2018MoZZ)
76SE G 3351.94 22 0.258 10
76SE L 3377.2 4
76SE E 3.4E-4 120.0033 139.46 +21-15 0.0036 13
76SES E EAV=245 4$CK=0.799 5$CL=0.0892 6$CM+=0.01723 13
76SE G 2160.80 41 0.0049 18 C
76SE L 3459.46 6 (2+)
76SE E 0.138 122.34 116.56 +4-3 2.48 11
76SES E EAV=210 4$CK=0.833 4$CL=0.0931 4$CM+=0.01797 11
76SE G 191.68 15 0.0085 17 C
76SE G 267.47 36 0.0025 5 C
76SE G 353.68 17 0.0113 9 C
76SE G 389.50 18 0.0172 22 C
76SE G 647.05 33 0.0061 12 C
76SE G 789.09 10 0.713 45 C
76SE G 803.59 10 0.845 39 C
76SE G 1029.89 15 0.97 11 C
76SE G 1671.78 16 0.138 6 C
76SE G 1769.93 41 0.0612 58 C
76SE G 2900.53 20 0.615 25 C
76SE L 3466.65 11
76SE E 8E-4 70.014 138.8 +9-3 0.015 13
76SES E EAV=207 4$CK=0.836 4$CL=0.0934 4$CM+=0.01803 11
76SE G 796.15 19 0.0050 9 C
76SE G 2250.64 23 0.0018 3 C
76SE G 2907.28 24 0.064 12 C
76SE L 3553.17 8 (1,2)
76SE E 0.0031 40.119 77.80 4 0.122 7
76SES E EAV=171 4$CK=0.8596 22$CL=0.09612 29$CM+=0.01857 10
76SE G 897.57 11 0.0321 17 C
76SE G 2337.37 26 0.0357 19 C
76SE G 2431.38 24 0.0390 20 C
76SE G 2994.27 20 0.102 6 C
76SE G 3553.53 96 0.0072 18 C
76SE L 3556.48 4 (2-)
76SE E 0.072 82.83 96.417 +29-28 2.90 9
76SES E EAV=169 4$CK=0.8603 22$CL=0.09620 28$CM+=0.01858 10
76SE G 287.32 25 0.0202 19 C
76SE G 288.68 20 0.0013 4 C
76SE G 336.61 12 0.0316 75 C
76SE G 450.83 13 0.0272 21 C
76SE G 486.44 10 0.161 11 C
76SE G 581.20 11 0.0180 25 C
76SE G 605.97 14 0.0347 65 C
76SE G 686.81 12 0.0259 18 C
76SE G 696.39 10 0.082 50 C
76SE G 738.88 13 0.0087 8 C
76SE G 744.40 45 0.0067 6 C
76SE G 886.14 12 0.496 32 C
76SE G 900.71 10 0.167 8 C
76SE G 1127.15 23 0.236 33 C
76SE G 1428.91 10 0.420 27 C
76SE G 1768.52 10 0.375 15 C
76SE G 1867.35 10 0.211 20 C
76SE G 2339.53 21 0.100 4 C
76SE G 2997.40 8 1.53 6 C
76SE cG E$weighted average of 2997.53 {I20} (2018MoZZ), 2997.38 {I8} (1974Na17)
76SE L 3604.46 4 1+
76SE E 0.038 52.49 86.442 29 2.53 8
76SES E EAV=149 4$CK=0.8689 16$CL=0.09721 23$CM+=0.01878 10
76SE G 734.78 14 0.0063 5 C
76SE G 934.26 12 0.129 10 C
76SE G 948.70 13 0.0770 37 C
76SE G 999.96 10 0.0651 46 C
76SE G 1089.42 10 0.137 7 C
76SE G 1433.53 10 0.0627 42 C
76SE G 1476.91 10 0.0185 29 C
76SE G 1812.92 12 0.050 13 C
76SE G 1816.71 12 0.0545 27 C
76SE G 2482.60 20 0.170 7 C
76SE G 3045.51 20 0.0570 64 C
76SE G 3603.99 8 2.65 8
76SE cG E$weighted average of 3604.00 {I20} (2018MoZZ), 3603.99 {I8} (1974Na17)
76SE cG E$poor fit, level energy difference=3604.37
76SE L 3637.19 6 (2+)
76SE E 0.0053 70.509 197.110 +32-31 0.514 19
76SES E EAV=135 4$CK=0.8731 12$CL=0.09772 20$CM+=0.01888 10
76SE G 531.36 37 0.0036 4 C
76SE G 767.61 14 0.0036 4 C
76SE G 966.78 11 0.0213 15 C
76SE G 981.24 20 0.0588 60 C
76SE G 1122.12 43 0.0171 57 C
76SE G 1466.13 35 0.0053 10 C
76SE G 1509.44 11 0.0629 45 C
76SE G 1845.58 16 0.197 17 C
76SE G 1848.72 72 0.0517 29 C
76SE G 2421.08 20 0.0388 19 C
76SE G 2515.16 59 0.219 9 C
76SE G 3078.56 21 0.0219 10 C
76SE L 3652.19 10 (1+,2+,3+)
76SE E 0.00130 190.153 87.62 4 0.154 8
76SES E EAV=129 4$CK=0.8747 11$CL=0.09792 19$CM+=0.01892 10
76SE G 701.66 12 0.0181 31 C
76SE G 1963.00 34 0.0108 11 C
76SE G 2436.05 27 0.0137 11 C
76SE G 3092.95 20 0.167 10 C
76SE cG $(3093|g)(559|g)(|q): A{-2}=+0.152, A{-4}=+0.041; |d=+0.132 {I31}
76SE2cG (2018MoZZ)
76SE L 3716.79 7 (2)
76SE E 7.4E-4 140.239 97.383 +32-31 0.240 9
76SES E EAV=101 4$CK=0.8794 6$CL=0.09852 16$CM+=0.01903 10
76SE G 1060.87 10 0.0574 29 C
76SE G 1929.05 11 0.0354 18 C
76SE G 2028.04 54 0.0181 18 C
76SE G 3157.64 20 0.237 10 D(+Q) +0.004 +34-35 C
76SE cG $(3157|g)(559|g)(|q): A{-2}=+0.247, A{-4}=+0.036; |d=+0.004 {I+34-35}
76SE2cG (2018MoZZ)
76SE L 3880.84 19
76SE E 2.483E-7 0.028 78.19 +14-11 0.028 7
76SES E EAV=30 4$CK=0.88179 28$CL=0.09906 15$CM+=0.01915 10
76SE G 1225.07 18 0.0383 89 C
76SE L 3915.77 6 (2-)
76SE E 2.01E-11 0.382 178.2 +9-13 0.382 17
76SES E EAV=15 5$CK=0.8748 4$CL=0.10494 23$CM+=0.02029 11
76SE G 647.79 20 0.0068 25 C
76SE G 695.70 33 0.050 12 C
76SE G 809.89 12 0.0042 4 C
76SE G 845.76 17 0.0380 37 C
76SE G 965.33 15 0.0119 15 C
76SE G 1055.90 13 0.0026 18 C
76SE G 1103.25 10 0.0419 78 C
76SE G 1245.49 32 0.0122 11 C
76SE G 1400.74 18 0.0120 11 C
76SE G 1787.99 32 0.0800 64 C
76SE G 2226.68 20 0.0846 81 C
76SE G 2699.08 20 0.0394 35 C
76SE G 3356.87 20 0.138 7 C
76SE L 3930.29 7 (1,2+)
76SE E 0.351 12 7.04 2 0.351 12
76SES E CK=0.8786 88$CL=0.1015 10$CM+=0.01989 20
76SE G 1060.51 25 0.0061 5 C
76SE G 1259.87 19 0.0276 20 C
76SE G 1759.34 13 0.0019 2 C
76SE G 1802.65 11 0.0405 28 C
76SE G 2142.50 21 0.0163 10 C
76SE G 2714.09 20 0.0586 39 C
76SE G 2808.17 22 0.0716 29 C
76SE G 3371.00 20 0.155 10 C
76SE G 3929.96 40 0.101 6
76SE L 3970.76 5 (2+)
76SE E 1.32 46.441 30 1.32 4
76SES E CK=0.88160 28$CL=0.09922 16$CM+=0.01918 10
76SE G 701.64 10 0.0692 62 C
76SE G 750.94 20 0.0044 11 C
76SE G 778.84 12 0.0318 60 C
76SE G 810.32 18 0.0290 23 C
76SE G 864.93 11 0.0132 10 C
76SE G 900.82 14 0.125 8 C
76SE G 995.41 13 0.0537 69 C
76SE G 1020.32 11 0.0320 19 C
76SE G 1101.07 11 0.0976 66 C
76SE G 1153.14 10 0.0983 80 C
76SE G 1158.27 10 0.0425 32 C
76SE G 1300.48 12 0.198 13 C
76SE G 1314.70 11 0.101 12 C
76SE G 1455.63 10 0.138 7 C
76SE G 1541.25 11 0.0361 59 C
76SE G 2183.01 20 0.252 11 C
76SE G 2754.54 20 0.0264 27 C
76SE G 3411.55 20 0.452 19 C
76SE L 4046.16 13 1+
76SE E 0.0216 88.158 +34-33 0.0216 8
76SES E CK=0.88141 29$CL=0.09937 16$CM+=0.01922 10
76SE G 1440.7 12 0.0014 2 C
76SE G 1918.41 45 0.0060 5 C
76SE G 2258.06 23 0.0108 5 C
76SE G 2356.89 21 0.0041 5 C
76SE G 2830.11 23 0.0071 4 C
76SE L 4084.00 7 (1-,2)
76SE E 0.390 186.86 4 0.390 18
76SES E CK=0.88130 29$CL=0.09946 16$CM+=0.01924 10
76SE G 816.29 13 0.0045 7 C
76SE G 864.16 70 0.0100 24 C
76SE G 979.0 17 0.0019 3 C
76SE G 1133.70 61 0.0222 12 C
76SE G 1271.45 12 0.0169 14 C
76SE G 1413.70 14 0.0077 7 C
76SE G 1428.61 57 0.0165 98 C
76SE G 1568.63 14 0.0248 34 C
76SE G 1654.57 21 0.120 15 C
76SE G 2296.07 26 0.0174 5 C
76SE G 3524.99 20 0.290 12 C
76SE L 4086.80 20
76SE E 0.0236 168.08 5 0.0236 16
76SES E CK=0.88129 29$CL=0.09947 16$CM+=0.01924 10
76SE G 1136.10 71 0.0033 7 C
76SE G 1416.48 49 0.0028 5 C
76SE G 1431.9 22 0.0037 12 C
76SE G 2298.95 22 0.0224 14 C
76SE L 4151.72 7 (2)
76SE E 0.165 87.17 4 0.165 8
76SES E CK=0.88108 30$CL=0.09965 17$CM+=0.01928 10
76SE G 1481.34 11 0.0381 35 C
76SE G 1495.89 13 0.0379 20 C
76SE G 1636.56 10 0.0331 17 C
76SE G 1722.24 12 0.0488 72 C
76SE G 2364.10 23 0.0229 14 C
76SE G 2462.82 20 0.0437 43 C
76SE L 4174.65 7 (1,2)
76SE E 0.469 226.69 4 0.469 22
76SES E CK=0.88099 30$CL=0.09972 17$CM+=0.0193 1
76SE G 1504.32 10 0.101 7 C
76SE G 1518.79 10 0.0899 44 C
76SE G 1659.66 30 0.0213 10 C
76SE G 2003.79 20 0.0111 8 C
76SE G 2047.10 21 0.0996 83 C
76SE G 2383.45 20 0.085 13 C
76SE G 2386.77 33 0.161 19 C
76SE G 3052.38 26 0.0292 41 C
76SE G 3615.08 22 0.0096 12 C
76SE G 4174.22 40 0.0322 25
76SE L 4199.52 6 (1-,2)
76SE E 0.350 126.787 34 0.350 12
76SES E CK=0.88089 30$CL=0.09980 17$CM+=0.01931 10
76SE G 482.72 29 0.0080 6 C
76SE G 980.1 13 0.0131 31 C
76SE G 1093.62 10 0.0260 20 C
76SE G 1249.15 25 0.0154 14 C
76SE G 1329.77 30 0.0061 5 C
76SE G 1543.69 15 0.0157 10 C
76SE G 1684.40 12 0.0123 7 C
76SE G 1770.02 10 0.0684 94 C
76SE G 2072.05 22 0.0863 60 C
76SE G 2411.79 20 0.0573 28 C
76SE G 2983.39 20 0.0470 26 C
76SE G 3639.99 20 0.122 6 C
76SE L 4205.67 6 (1-,2)
76SE E 0.255 176.92 5 0.255 17
76SES E CK=0.88087 30$CL=0.09982 17$CM+=0.01931 10
76SE G 937.73 13 0.0078 12 C
76SE G 985.62 10 0.072 17 C
76SE G 1255.15 44 0.0404 54 C
76SE G 1335.66 34 0.0013 2 C
76SE G 1388.08 11 0.0090 10 C
76SE G 1393.21 10 0.0387 32 C
76SE G 1549.99 14 0.0288 16 C
76SE G 1776.22 11 0.091 12 C
76SE G 2989.94 69 0.0128 20 C
76SE G 3646.17 21 0.0456 22 C
76SE L 4249.38 28 (1,2)
76SE E 0.0110 138.23 7 0.0110 13
76SES E CK=0.88068 31$CL=0.09997 17$CM+=0.01934 10
76SE G 2121.95 38 0.0140 17 C
76SE G 4249.06 41 0.0010 2
76SE L 4257.84 18 (1,2)
76SE E 0.0147 88.09 4 0.0147 8
76SES E CK=0.88064 31$CL=0.10000 18$CM+=0.01936 10
76SE G 2087.00 28 0.0011 1 C
76SE G 2470.0 11 0.0068 5 C
76SE G 3042.4 15 0.0075 7 C
76SE G 3698.41 26 0.0035 4 C
76SE G 4257.79 43 0.0011 1
76SE L 4299.26 9
76SE E 0.0437 237.57 4 0.0437 23
76SES E CK=0.88043 31$CL=0.10018 18$CM+=0.01939 10
76SE G 1107.17 11 0.0027 4 C
76SE G 1349.0 13 0.0051 4 C
76SE G 1481.59 20 0.0074 7 C
76SE G 1628.81 28 0.0241 17 C
76SE G 1643.28 28 0.0056 10 C
76SE G 3082.92 21 0.0147 18 C
76SE L 4328.67 8 (1,2)
76SE E 0.162 86.96 4 0.162 8
76SES E CK=0.88026 32$CL=0.10031 18$CM+=0.01942 10
76SE G 724.15 11 0.0242 13 C
76SE G 976.89 16 0.0144 15 C
76SE G 1672.95 10 0.182 9 C
76SE G 4328.36 42 0.0006 1
76SE L 4347.59 33 (1,2)
76SE E 0.0069 38.30 4 0.0069 3
76SES E CK=0.88015 32$CL=0.10041 19$CM+=0.01945 10
76SE G 3131.30 56 0.0076 4 C
76SE G 4347.40 41 0.0018 1
76SE L 4366.85 11
76SE E 0.0258 157.70 5 0.0258 15
76SES E CK=0.88002 33$CL=0.10051 19$CM+=0.01947 11
76SE G 649.76 40 0.0074 5 C
76SE G 1098.81 15 0.0115 13 C
76SE G 1146.32 64 0.0042 10 C
76SE G 2239.60 24 0.0066 8 C
76SE G 2677.57 28 0.0034 4 C
76SE G 3150.67 26 0.0021 4 C
76SE L 4412.01 5 (2)
76SE E 0.513 206.33 4 0.513 20
76SES E CK=0.87969 34$CL=0.10078 20$CM+=0.01953 11
76SE G 859.45 12 0.0137 20 C
76SEF G FL=3553.17
76SE cG E$poor fit, level energy difference=858.83
76SE G 945.27 18 0.050 13 C
76SE G 1143.89 12 0.0314 23 C
76SE G 1191.79 10 0.0320 76 C
76SE G 1219.73 59 0.0159 20 C
76SE G 1342.03 12 0.0772 51 C
76SE G 1461.42 12 0.0331 16 C
76SE G 1542.28 38 0.0037 3 C
76SE G 1599.21 25 0.0737 56 C
76SE G 1741.51 10 0.193 13 C
76SE G 1756.42 11 0.0525 27 C
76SE G 1896.96 34 0.0022 5 C
76SE G 1982.31 46 0.0328 55 C
76SE G 2284.54 24 0.0116 10 C
76SE G 2624.11 20 0.0397 22 C
76SE G 2722.99 21 0.0098 10 C
76SE G 3195.52 20 0.0267 17 C
76SE G 3853.03 45 0.0002 1 C
76SE L 4438.03 6 (1+,2+)
76SE E 0.231 96.64 4 0.231 9
76SES E CK=0.8795 3$CL=0.10095 21$CM+=0.01956 11
76SE G 721.22 11 0.0053 4 C
76SE G 1277.59 15 0.0243 38 C
76SE G 1782.38 11 0.0130 5 C
76SE G 1833.61 25 0.0183 14 C
76SE G 1922.89 10 0.0691 35 C
76SE G 2267.05 20 0.0111 9 C
76SE G 2310.69 27 0.0537 70 C
76SE G 2650.64 44 0.0090 14 C
76SE G 3221.81 20 0.0157 9 C
76SE G 3315.98 52 0.0033 3 C
76SE G 3878.09 23 0.0010 2 C
76SE G 4437.33 40 0.0919 54
76SE L 4452.11 11 (1+,2+)
76SE E 0.0314 127.48 4 0.0314 12
76SES E CK=0.8794 4$CL=0.10106 21$CM+=0.01959 11
76SE G 1501.99 24 0.0052 4 C
76SE G 1796.56 21 0.0039 3 C
76SE G 3235.88 22 0.0051 3 C
76SE G 3892.32 20 0.0180 11 C
76SE G 4451.81 40 0.0107 6
76SE L 4473.69 10 (2+)
76SE E 0.0298 137.46 4 0.0298 13
76SES E CK=0.8791 4$CL=0.10123 22$CM+=0.01963 11
76SE G 1803.44 13 0.0074 7 C
76SE G 1817.96 19 0.0073 9 C
76SE G 3257.58 21 0.0070 4 C
76SE G 3913.93 21 0.0189 11 C
76SE L 4489.58 7 (1,2)
76SE E 0.29 26.45 +6-5 0.29 2
76SES E CK=0.8790 4$CL=0.10136 22$CM+=0.01966 11
76SE G 936.04 26 0.0364 49 C
76SE G 1137.74 10 0.0656 51 C
76SE G 1539.05 30 0.0143 8 C
76SE G 1819.27 12 0.0133 11 C
76SE G 1833.87 10 0.148 7 C
76SE G 2698.18 21 0.0152 18 C
76SE G 3366.2 19 0.0146 8 C
76SE G 3930.06 40 0.0480 33 C
76SE G 4488.56 40 0.0048 5
76SE L 4523.77 11
76SE E 0.0279 247.40 +7-6 0.0279 24
76SES E CK=0.8786 4$CL=0.10169 24$CM+=0.01974 12
76SE G 1255.89 72 0.0050 23 C
76SE G 1304.1 10 0.0035 8 C
76SE G 1653.91 63 0.0034 4 C
76SE G 1711.26 12 0.0093 15 C
76SE G 2008.33 83 0.0022 3 C
76SE G 2835.30 45 0.0030 4 C
76SE G 3307.29 21 0.0116 12 C
76SE L 4533.27 12
76SE E 0.0300 237.34 6 0.0300 23
76SES E CK=0.8785 4$CL=0.10179 24$CM+=0.01976 12
76SE G 1265.30 78 0.0045 16 C
76SE G 1862.81 13 0.0148 11 C
76SE G 2103.93 60 0.0074 21 C
76SE G 2746.09 47 0.0060 9 C
76SE G 3974.67 41 0.0082 4 C
76SE L 4535.27 8
76SE E 0.144 66.66 5 0.144 6
76SES E CK=0.8784 4$CL=0.10181 24$CM+=0.01976 12
76SE G 1584.72 10 0.0718 34 C
76SE G 1879.55 12 0.124 6 C
76SE L 4576.23 19 (1,2)
76SE E 0.0099 127.73 +9-8 0.0099 12
76SES E CK=0.8778 4$CL=0.10231 27$CM+=0.01986 12
76SE G 1906.26 35 0.0031 5 C
76SE G 1921.1 12 0.0035 14 C
76SE G 3453.80 27 0.0023 2 C
76SE G 4575.70 40 0.0046 5
76SE L 4581.39 11
76SE E 0.130 96.60 6 0.130 9
76SES E CK=0.8777 4$CL=0.10238 27$CM+=0.01989 12
76SE G 1313.70 81 0.0040 21 C
76SE G 1420.92 49 0.0205 74 C
76SE G 1605.80 88 0.0041 6 C
76SE G 1911.10 12 0.0093 10 C
76SE G 2152.17 35 0.0062 18 C
76SE G 2454.00 52 0.0204 16 C
76SE G 3364.74 32 0.0113 9 C
76SE G 4021.65 40 0.101 9 C
76SE L 4603.78 11 (1,2)+
76SE E 0.0562 246.91 5 0.0562 24
76SES E CK=0.8773 4$CL=0.10271 29$CM+=0.01996 13
76SE G 1948.48 19 0.0054 4 C
76SE G 2815.79 34 0.0125 21 C
76SE G 3386.81 22 0.0058 4 C
76SE G 3481.69 22 0.0080 4 C
76SE G 4043.89 40 0.0171 13 C
76SE G 4603.27 40 0.0279 14
76SE L 4687.52 11
76SE E 0.010 17.42 8 0.010 1
76SES E CK=0.8752 6$CL=0.1044 4$CM+=0.02035 16
76SE G 1736.92 17 0.0048 5 C
76SE G 1875.23 16 0.0031 12 C
76SE G 2017.14 46 0.0025 3 C
76SE G 3470.50 50 0.0030 2 C
76SE G 4127.74 50 0.0003 1 C
76SE L 4721.6 4
76SE E 0.0067 47.48 7 0.0067 4
76SES E CK=0.8739 7$CL=0.1055 5$CM+=0.02058 17
76SE G 4162.34 41 0.0091 5 C
76SE L 4723.4 4
76SE E 0.0100 77.30 7 0.0100 7
76SES E CK=0.8738 7$CL=0.1056 5$CM+=0.02060 17
76SE G 1772.95 59 0.0051 4 C
76SE G 3507.05 54 0.0044 6 C
76SE G 4163.45 98 0.0041 4 C
76SE L 4731.9 4
76SE E 0.0105 77.24 7 0.0105 7
76SES E CK=0.8734 7$CL=0.1059 5$CM+=0.02067 17
76SE G 1781.37 40 0.0098 6 C
76SE G 3515.7 11 0.0045 6 C
76SE L 4795.14 13 (1,2)
76SE E 0.0304 216.49 9 0.0304 21
76SES E CK=0.8691 12$CL=0.1095 9$CM+=0.02147 26
76SE G 1982.95 56 0.0054 13 C
76SE G 2139.93 26 0.0090 4 C
76SE G 2365.29 27 0.0149 22 C
76SE G 3672.54 22 0.0029 2 C
76SE G 4235.89 41 0.0079 6 C
76SE G 4794.96 40 0.0013 1