188AU 188HG EC DECAY (3.25 M) 1985AB03 18NDS 201806
188AU H TYP=FUL$AUT=F.G. KONDEV, S. JUUTINEN, D.J. HARTLEY$
188AU2 H CIT=NDS 150, 1 (2018)$CUT=1-Feb-2018$
188AU c 1985Ab03: Mass separated source from {+197}Au(p,xn) reaction at 200
188AU2c MeV. Measured |g, |g|g, ce, |g x, ce ce(t), ce |g(t). Magnetic
188AU3c spectrometer used for ce data for |g's below 350 keV. Others (from
188AU4c the same laboratory): 1972HuZL, 1971JoZK
188AU c Others: 1984DaZJ, 1978CoYZ, 1971Hu02, 1970Fi16, 1960Al20, 1960Po07
188AU cE $|b{++}+|e decay strength measurements using total absorption technique
188AU2cE (1975Ho03,1970Du09) suggest that >98% of the strength
188AU3cE is below 600 keV, implying that the main |b{++}+|e feedings proceed
188AU4cE to levels below 600 keV
188AU cL E$From least-squares fit to E|g's
188AU cL J$From adopted levels
188AU cG E(a)$Placement in the level scheme made by the evaluators, based on the
188AU2CG observed |g-ray decay pattern
188AU cG M$From ce data in 1985Ab03, normalized to 266|g, E2 in {+188}Pt.
188AU2cG The uncertainties were not reported, but probably about 10% for strong
188AU3cG lines and |?25% for weak and unresolved lines
188AU cG MR$From least square fits to experimental I(ce) and |a(K)
188AU2cG data (1985Ab03) using the BrIccMixing code. 10% uncertainty was assumed
188AU3cG to the experimental values, as those were not reported in 1985Ab03
188AU DG CC$FROM BrIcc v2.3b (16-Dec-2014) 2008Ki07, "Frozen Orbitals" appr.
188AU N 0.036 6 1.0 1.0
188AU cN NR$From I(|e+|b{++})(g.s.)=17% {I12} (1985Ab03)
188AU cN BR$%|e+%|b{++}=99.999963 {I8}, %|a=3.7|*10{+-5} {I8}
188AU PN 3
188HG P 0.0 0+ 3.25 M 15 2169 13
188AU G 54.9 1 0.066 7 M2 285 5
188AU2 G %IG=0.0024 5
188AUS G LC=212 4$MC=55.8 9
188AUS G NC=14.14 23$OC=2.51 4$PC=0.1331 22
188AU cG RI$from I(ce)=19 2 (1985Ab03) and the assumed transition multipolarity
188AU cG M$from L1/L2/L3=100/11/39 (1985Ab03)
188AU G 126.5 1 1.7 4 M1+E2 3.70
188AU2 G %IG=0.061 18
188AUS G KC=3.04 5$LC=0.510 8$MC=0.1183 17
188AUS G NC=0.0295 5$OC=0.00542 8$PC=0.000366 6
188AU cG M$from |a(K)exp=1.1 in 1985Ab03
188AU G 141.4 1 3.2 8 M1+E2 2.70
188AU2 G %IG=0.12 4
188AUS G KC=2.22 4$LC=0.371 6$MC=0.0860 13
188AUS G NC=0.0214 3$OC=0.00394 6$PC=0.000266 4
188AU cG M$from |a(K)exp=1.0 in 1985Ab03
188AU G 142.4 1 5.5 6 M1+E2 2.64
188AU2 G %IG=0.20 4
188AUS G KC=2.17 3$LC=0.363 6$MC=0.0843 12
188AUS G NC=0.0210 3$OC=0.00386 6$PC=0.000261 4
188AU cG M$from |a(K)exp=1.85 in 1985Ab03
188AU G 167.0 1 2.8 7 (M1+E2) 1.685
188AU2 G %IG=0.10 3
188AUS G KC=1.385 20$LC=0.231 4$MC=0.0536 8
188AUS G NC=0.01335 19$OC=0.00245 4$PC=0.0001658 24
188AU cG M$from |a(K)exp<1.0 in 1985Ab03
188AU G 185.8 1 9.4 10M1+E2 1.249
188AU2 G %IG=0.34 7
188AUS G KC=1.026 15$LC=0.1709 24$MC=0.0396 6
188AUS G NC=0.00988 14$OC=0.00182 3$PC=0.0001227 18
188AU cG M$from |a(L)exp=0.20 in 1970Fi16
188AU G 196.6 1 3.3 8
188AU2 G %IG=0.12 4
188AU G 220.7 3 2.6 7
188AU2 G %IG=0.09 3
188AU G 223.1 3 4.0 10M1+E2 0.750
188AU2 G %IG=0.14 5
188AUS G KC=0.616 9$LC=0.1023 15$MC=0.0237 4
188AUS G NC=0.00591 9$OC=0.001087 16$PC=7.35E-5 11
188AU cG M$from |a(K)exp=0.28 in 1985Ab03
188AU G 226.3 3 2.2 5 M1+E2 0.721 11
188AU2 G %IG=0.079 22
188AUS G KC=0.593 9$LC=0.0983 15$MC=0.0228 4
188AUS G NC=0.00568 9$OC=0.001045 16$PC=7.07E-5 11
188AU cG M$from |a(K)exp=0.77 in 1985Ab03
188AU G 268.4 3 5.4 6
188AU2 G %IG=0.19 4
188AU G 281.8 3 3.4 9
188AU2 G %IG=0.12 4
188AU G 299.6 3 3.1 8
188AU2 G %IG=0.11 4
188AU G 332.4 3 9.4 10
188AU2 G %IG=0.34 7
188AU G 398.1 3 3.6 9
188AU2 G %IG=0.13 4
188AU G 459.7 3 4.7 12
188AU2 G %IG=0.17 5
188AU G 479.1 3 4.5 11
188AU2 G %IG=0.16 5
188AU G 489.4 3 3.0 7
188AU2 G %IG=0.11 3
188AU G 544.2 3 6.7 7 (M1+E2) 0.0677
188AU2 G %IG=0.24 5
188AUS G KC=0.0559 8$LC=0.00907 13$MC=0.00210 3
188AUS G NC=0.000522 8$OC=9.62E-5 14$PC=6.56E-6 10
188AU cG M$from |a(K)exp<0.07 in 1985Ab03
188AU G 554.0 3 3.1 8
188AU2 G %IG=0.11 4
188AU G 576.5 3 2.9 7
188AU2 G %IG=0.10 3
188AU G 599.4 3 8.5 9 M1(+E2) 0.0526
188AU2 G %IG=0.31 6
188AUS G KC=0.0435 7$LC=0.00703 10$MC=0.001625 23
188AUS G NC=0.000405 6$OC=7.45E-5 11$PC=5.09E-6 8
188AU cG M$from |a(K)exp=0.05 in 1985Ab03
188AU G 614.3 3 3.8 9
188AU2 G %IG=0.14 4
188AU G 764.9 3 2.9 7
188AU2 G %IG=0.10 3
188AU G 792.2 3 2.7 7
188AU2 G %IG=0.10 3
188AU G 830.8 3 4.6 11
188AU2 G %IG=0.17 5
188AU G 835.6 3 1.8 4
188AU2 G %IG=0.065 18
188AU G 849.4 3 4.1 10
188AU2 G %IG=0.15 5
188AU G 851.1 3 5.1 5
188AU2 G %IG=0.18 4
188AU G 964.9 3 2.9 7
188AU2 G %IG=0.10 3
188AU G 988.2 3 4.0 10
188AU2 G %IG=0.14 5
188AU G 1046.9 3 13 1 &
188AU2 G %IG=0.47 9
188AU cG RI$for 1046.9|g + 1047.7|g
188AU G 1125.2 3 3.2 8
188AU2 G %IG=0.12 4
188AU G 1214.2 3 3.6 9
188AU2 G %IG=0.13 4
188AU G 1242.1 3 5.6 6
188AU2 G %IG=0.20 4
188AU G 1284.4 3 5.6 6
188AU2 G %IG=0.20 4
188AU G 1304.5 3 6.7 7
188AU2 G %IG=0.24 5
188AU G 1311.3 3 12 1
188AU2 G %IG=0.43 8
188AU L 0.0 1- 8.84 M 6
188AU cL T$From |b-265.6|g(t) and |b-339.9|g(t) in 1972Fi12,1970Fi16
188AU E 0.32 23 17 12 5.2 3 17 12
188AUS E EAV=530.7 57$CK=0.7940 6$CL=0.14169 15$CM+=0.04554 5
188AU cE TI$From Auger electron and K| x ray intensities in 1985Ab03
188AU L 16.0 1 (2)- 0.67 NS 8
188AU cL T$From (ce(M) 16|g)(ce(L) 66|g, ce(L) 98|g, ce(K) 190|g)(t) (1985Ab03)
188AU G 16.0 1 5.5 4 M1+E2 0.044 3 352 13 C
188AU2 G %IG=0.20 3
188AUS G LC=268 10$MC=64.2 25
188AUS G NC=15.9 6$OC=2.85 10$PC=0.158 4
188AU cG RI$From I(|g+ce)=1940 (1985Ab03). The value of I|g=11, also quoted by
188AU2cG 1985Ab03, would give I(|g+ce)=3509, implying a large |b{++}+|e feeding
188AU3cG to the 16.0 level
188AU cG M,MR$From M1/M2/M3=100/21/17 in 1985Ab03
188AU L 82.7 1 1+ 1.4 NS 2
188AU cL T$From (ce(L) 66|g)(KLL Auger)(t) (1985Ab03)
188AU E 0.94 7 64 4 4.55 4 65 4
188AUS E EAV=494.5 57$CK=0.7970 5$CL=0.1426 2$CM+=0.04585 5
188AU G 66.7 1 1430 70(E1) 0.248 C
188AU2 G %IG=52 8
188AUS G LC=0.190 3$MC=0.0446 7
188AUS G NC=0.01086 16$OC=0.00182 3$PC=7.01E-5 11
188AU cG RI$from I(|g+ce)=1790 {I90} (1985Ab03) and |a for E1 Mult.
188AU cG M$ L1/L2/L3=100/54/68 in 1985Ab03 allows E1 or M1+E2 with |d=0.38 2
188AU G 82.7 1 59 6 (E1) 0.659 C
188AU2 G %IG=2.1 4
188AUS G KC=0.521 8$LC=0.1060 16$MC=0.0248 4
188AUS G NC=0.00605 9$OC=0.001027 15$PC=4.27E-5 6
188AU cG M$L1/L2/L3=100/41/34 in 1985Ab03 allows E1 or M1+E2 with |d=0.36 2
188AU L 114.2 1 (1)-
188AU E 0.033 4 2.5 3 5.95 6 2.5 3
188AUS E EAV=480.7 57$CK=0.7980 4$CL=0.1429 2$CM+=0.04596 5
188AU G 98.2 1 3.3 8 M1+E2 0.03 LT 7.64 C
188AU2 G %IG=0.12 4
188AUS G KC=6.27 9$LC=1.058 16$MC=0.246 4
188AUS G NC=0.0612 9$OC=0.01124 17$PC=0.000758 11
188AU cG M,MR$from |a(K)exp=7.6 (1985Ab03). Other: |a(L)exp=0.51 (1970Fi16)
188AU G 114.2 1 13.8 8 M1+E2 2.02 +18-123.40 7 C
188AU2 G %IG=0.50 9
188AUS G KC=1.26 10$LC=1.61 4$MC=0.415 11
188AUS G NC=0.1021 25$OC=0.0166 4$PC=0.000151 11
188AU cG RI$ from Ice=61 {I3} (1985Ab03) and |a
188AU cG M,MR$from K/L3=2.0 (1985Ab03)
188AU L 114.8 1 (2)- 0.22 NS 2
188AU cL T$From (ce(K) 115|g)(ce(K) 190|g, |g)(t) (1985Ab03)
188AU E 0.002 LE 0.6 LE 7.7 GE 0.6 LE 1U
188AUS E EAV=490.8 56$CK=0.7946$CL=0.1528 2$CM+=0.04974 6
188AU G 98.8 1 8.7 9 M1+E2 0.17 LT 7.48 C
188AU2 G %IG=0.31 6
188AUS G KC=6.08 12$LC=1.07 4$MC=0.251 11
188AUS G NC=0.062 3$OC=0.0114 4$PC=0.000736 14
188AU cG M,MR$from |a(K)exp=8.3 (1985Ab03).
188AU G 114.8 1 27.4 12M1+E2 0.34 2 4.69 C
188AU2 G %IG=0.99 17
188AUS G KC=3.65 7$LC=0.790 17$MC=0.188 5
188AUS G NC=0.0468 11$OC=0.00832 18$PC=0.000440 8
188AU cG RI$ from Ice=156 {I7} (1985Ab03) and |a
188AU cG M,MR$from K/L3=44.5 (1985Ab03)
188AU L 172.0 1 (1,2)-
188AU E 0.0143 23 1.33 20 6.19 7 1.34 20
188AUS E EAV=455.4 57$CK=0.7997 4$CL=0.1435 2$CM+=0.04616 5
188AU G 155.8 1 13 2 M1+E2 0.94 18 1.52 12 a
188AU2 G %IG=0.47 11
188AUS G KC=1.04 15$LC=0.361 19$MC=0.089 6
188AUS G NC=0.0221 14$OC=0.00377 18$PC=0.000122 18
188AU cG M,MR$from |a(K)exp=1.15 in 1985Ab03. Other: |a(L)exp=0.59 in 1970Fi16
188AU G 172.1 1 1.8 4 M1+E2 0.3 LT 1.51 5 a
188AU2 G %IG=0.065 18
188AUS G KC=1.23 5$LC=0.215 5$MC=0.0503 13
188AUS G NC=0.0125 4$OC=0.00229 5$PC=0.000147 6
188AU cG M$from |a(K)exp=1.4 in 1985Ab03
188AU L 217.5 1 (1)+
188AU E 0.0109 14 1.20 14 6.22 6 1.21 14
188AUS E EAV=435.4 57$CK=0.8008 3$CL=0.1439 2$CM+=0.04631 5
188AU G 134.8 1 14.2 9 M1+E2 0.68 2 2.61 5 C
188AU2 G %IG=0.51 9
188AUS G KC=1.87 4$LC=0.563 10$MC=0.138 3
188AUS G NC=0.0342 7$OC=0.00589 10$PC=0.000223 5
188AU cG RI$from Ice=51 {I3} (1985Ab03)
188AU cG M,MR$from K/L3=10.4 (1985Ab03); |a(L)exp=0.20 (1970Fi16)
188AU L 297.1 3 (0,1)-
188AU E 0.0031 4 0.47 5 6.59 5 0.47 5
188AUS E EAV=400.5 57$CK=0.8023 3$CL=0.1446 2$CM+=0.04656 4
188AU G 182.9 3 7.8 8 M1+E2 1.9 +3-2 0.68 4 C
188AU2 G %IG=0.28 6
188AUF G FL=114.2
188AUS G KC=0.40 4$LC=0.215 4$MC=0.0543 12
188AUS G NC=0.0134 3$OC=0.00223 4$PC=4.5E-5 5
188AU cG M,MR$from |a(K)exp=0.4 in 1985Ab03
188AU G 297.1 3 4.6 9 [M1+E2] 0.341 ?
188AU2 G %IG=0.17 5
188AUS G KC=0.281 4$LC=0.0463 7$MC=0.01073 16
188AUS G NC=0.00267 4$OC=0.000492 7$PC=3.33E-5 5
188AU L 304.9 1 (1)-
188AU E 0.046 4 7.2 4 5.40 4 7.2 4
188AUS E EAV=397.1 57$CK=0.8024 3$CL=0.1447 2$CM+=0.04658 4
188AU G 190.1 1 100 5 M1+E2 0.06 3 1.168 C
188AU2 G %IG=3.6 6
188AUS G KC=0.960 14$LC=0.1603 23$MC=0.0372 6
188AUS G NC=0.00927 14$OC=0.001704 24$PC=0.0001147 17
188AU cG M,MR$from |a(K)exp=1.0, L12/L3=104 (1985Ab03), |a(L)exp=0.10 (1970Fi16)
188AU G 190.7 1 4.5 11M1+E2 0.7 GT 0.68 25
188AU2 G %IG=0.16 5
188AUS G KC=0.45 26$LC=0.178 11$MC=0.045 4
188AUS G NC=0.0110 10$OC=0.00186 9$PC=5.1E-5 32
188AU cG M,MR$from L2/L3=1.7 in 1985Ab03
188AU G 304.9 3 1.1 3 [M1+E2] 0.318 ?
188AU2 G %IG=0.040 13
188AUS G KC=0.262 4$LC=0.0431 7$MC=0.00999 15
188AUS G NC=0.00249 4$OC=0.000458 7$PC=3.10E-5 5
188AU L 442.7 4 (0,1)+
188AU E 0.0007520 0.23 6 6.82 12 0.23 6
188AUS E EAV=336.5 58$CK=0.80392 9$CL=0.1458 1$CM+=0.04700 4
188AU G 225.2 3 3.7 9 M1+E2 0.2 LT 0.721 14 C
188AU2 G %IG=0.13 4
188AUS G KC=0.592 13$LC=0.0996 15$MC=0.0231 4
188AUS G NC=0.00576 9$OC=0.001057 16$PC=7.05E-5 16
188AU cG M,MR$from |a(K)exp=0.73 in 1985Ab03
188AU L 447.1 2 (0,1)+
188AU E 0.0022 2 0.69 6 6.34 5 0.69 6
188AUS E EAV=334.5 58$CK=0.80395 9$CL=0.1459 1$CM+=0.04701 4
188AU G 229.6 3 6.7 7 M1+E2 0.18 LT 0.685 13 C
188AU2 G %IG=0.24 5
188AUS G KC=0.562 11$LC=0.0943 14$MC=0.0219 4
188AUS G NC=0.00546 8$OC=0.001002 15$PC=6.70E-5 13
188AU cG M,MR$from |a(K)exp=0.94 in 1985Ab03
188AU G 364.4 3 6.6 7 M1+E2 0.6 LT 0.178 19 C
188AU2 G %IG=0.24 5
188AUS G KC=0.145 17$LC=0.0250 16$MC=0.0058 4
188AUS G NC=0.00145 9$OC=0.000265 17$PC=1.71E-5 20
188AU cG M,MR$from |a(K)exp=0.15 in 1985Ab03
188AU L 566.6 3 (1-)
188AU E 0.000739 0.48 4 6.44 5 0.48 4
188AUS E EAV=281.6 58$CK=0.8043$CL=0.1468 1$CM+=0.04736 4
188AU G 451.8 3 12 1 M1+E2 0.3 LT 0.107 4 C
188AU2 G %IG=0.43 8
188AUF G FL=114.8
188AUS G KC=0.088 3$LC=0.0146 4$MC=0.00337 9
188AUS G NC=0.000840 21$OC=0.000154 4$PC=1.04E-5 4
188AU cG M,MR$from |a(K)exp=0.10 in 1985Ab03
188AU L 567.3 2 (0,1)-
188AU E 0.0018119 1.19 6 6.04 3 1.19 6
188AUS E EAV=281.3 58$CK=0.8043$CL=0.1468 1$CM+=0.04736 4
188AU G 262.4 3 21 1 E2(+M1) 3.5 +12-7 0.178 13 C
188AU2 G %IG=0.76 13
188AUS G KC=0.110 12$LC=0.0520 10$MC=0.01308 21
188AUS G NC=0.00323 6$OC=0.000541 10$PC=1.19E-5 15
188AU cG M,MR$ from |a(K)exp=0.11 in 1985Ab03
188AU G 567.2 3 8 1 M1+E2 0.5 LT 0.057 5
188AU2 G %IG=0.29 6
188AUS G KC=0.047 4$LC=0.0077 5$MC=0.00178 11
188AUS G NC=0.00044 3$OC=8.1E-5 5$PC=5.5E-6 5
188AU cG M,MR$ from |a(K)exp=0.05 in 1985Ab03
188AU L 606.0 2 (2)+
188AU E 0.0002 LE 0.2 LE 6.8 GE 0.2 LE
188AUS E EAV=264.1 58$CK=0.8042$CL=0.1471 1$CM+=0.04748 4
188AU G 523.3 3 15 2 M1+E2 0.5 LT 0.070 6 C
188AU2 G %IG=0.54 12
188AUS G KC=0.057 5$LC=0.0095 6$MC=0.00221 13
188AUS G NC=0.00055 4$OC=0.000101 6$PC=6.7E-6 6
188AU cG M,MR$from |a(K)exp=0.06 in 1985Ab03
188AU G 606.0 3 9 1 E1 0.00576 C
188AU2 G %IG=0.32 7
188AUS G KC=0.00481 7$LC=0.000737 11$MC=0.0001691 24
188AUS G NC=4.19E-5 6$OC=7.61E-6 11$PC=4.82E-7 7
188AU cG M,MR$ from |a(K)exp<0.006 in 1985Ab03
188AU L 859.8 3 (2)+
188AU E 0.08 LE 7.0 GE 0.08 LE ?
188AUS E CK=0.8022 2$CL=0.1494 2$CM+=0.04833 6
188AU G 253.8 3 12 1 M1+E2 0.57 19 0.44 5 C
188AU2 G %IG=0.43 8
188AUS G KC=0.35 5$LC=0.0682 19$MC=0.0161 4
188AUS G NC=0.00401 9$OC=0.000721 22$PC=4.1E-5 5
188AU cG M,MR$ from |a(K)exp=0.35 in 1985Ab03
188AU L 961.3 1 (0-,1)
188AU E 0.23 5 6.50 10 0.23 5
188AUS E CK=0.8007 3$CL=0.15050 16$CM+=0.04876 6
188AU G 944.9 3 2.4 6 a
188AU2 G %IG=0.09 3
188AU G 961.3 3 4.1 10 a
188AU2 G %IG=0.15 5
188AU L 1012.1 3 (1)+
188AU E 0.24 8 6.44 15 0.24 8
188AUS E CK=0.7999 3$CL=0.15112 17$CM+=0.04901 7
188AU G 152.3 1 2.2 5 M1+E2 1.08 16 1.54 10 C
188AU2 G %IG=0.079 22
188AUS G KC=1.00 12$LC=0.408 17$MC=0.102 5
188AUS G NC=0.0251 13$OC=0.00425 17$PC=0.000117 15
188AU cG M,MR$from |a(K)exp=1.0 in 1985Ab03
188AU G 406.1 3 4.9 12(M1+E2) 0.1467 C
188AU2 G %IG=0.18 6
188AUS G KC=0.1210 18$LC=0.0198 3$MC=0.00458 7
188AUS G NC=0.001142 17$OC=0.000210 3$PC=1.428E-5 21
188AU cG M$ from |a(K)exp<0.2 in 1985Ab03
188AU L 1047.8 2 (1)
188AU E 0.64 6 5.98 5 0.64 6
188AUS E CK=0.7992 3$CL=0.15160 19$CM+=0.04919 7
188AU G 1031.8 3 4.7 12 C
188AU2 G %IG=0.17 5
188AU G 1047.7 3 13 1 &
188AU2 G %IG=0.47 9
188AU cG RI$for 1046.9|g+1047.7|g
188AU L 1103.0 3 (1)+
188AU G 243.2 3 2.4 6 M1+E2 0.21 LT 0.582 12 C
188AU2 G %IG=0.09 3
188AUS G KC=0.478 11$LC=0.0802 12$MC=0.0186 3
188AUS G NC=0.00464 7$OC=0.000852 13$PC=5.69E-5 13
188AU cG M,MR$from |a(K)exp=0.63 in 1985Ab03
188AU L 1123.4 3 (1)
188AU E 0.198 22 6.43 6 0.198 22
188AUS E CK=0.7976 3$CL=0.15273 22$CM+=0.04963 9
188AU G 263.5 3 C
188AU cG E$placement is from |g-|g coin. I|g not available
188AU G 1040.7 3 5.5 6 C
188AU2 G %IG=0.20 4
188AU L 1205.0 3 (1)+
188AU E 1.02 15 5.64 7 1.02 15
188AUS E CK=0.7956 4$CL=0.1542 3$CM+=0.05018 10
188AU G 102.0 1 2.0 5 M1+E2 0.2 LT 6.82 11 C
188AU2 G %IG=0.072 22
188AUS G KC=5.53 13$LC=0.99 5$MC=0.231 12
188AUS G NC=0.058 3$OC=0.0105 5$PC=0.000668 15
188AU cG M,MR$from |a(K)exp=6.9 in 1985Ab03
188AU G 192.9 1 2.1 5 [M1+E2] 1.124 C
188AU2 G %IG=0.076 22
188AUS G KC=0.924 13$LC=0.1538 22$MC=0.0357 5
188AUS G NC=0.00889 13$OC=0.001634 23$PC=0.0001104 16
188AU G 345.2 3 6.6 7 [M1+E2] 0.227
188AU2 G %IG=0.24 5
188AUS G KC=0.187 3$LC=0.0307 5$MC=0.00712 11
188AUS G NC=0.00177 3$OC=0.000326 5$PC=2.21E-5 4