40CA 40SC EC DECAY (182.3 MS) 1982HO09,1973DE08 17NDS 201702
40CA H TYP=FUL$AUT=JUN CHEN$CIT=NDS 140, 1 (2017)$CUT=30-Sep-2015$
40CA c 1982Ho09: {+40}Sc ions were produced by the {+40}Ca(p,n) reaction
40CA2c with E=20 MeV proton beam provided by the University of Jyvaskyla
40CA3c |a(M)-20 cyclotron on a 1mg/cm{+2} target of natural calcium.
40CA4c Charged-particles were detected with Si(Au) surface-barrier detector
40CA5c and |g rays were detected with a |g-ray detector. Measured |b{++}
40CA6c delayed protons, |b{++} delayed |a particles, E|g, p|g-coin, decay
40CA7c curve. Deduced levels, J, |p, T{-1/2}, |G{-|a}/|G{-p}.
40CA c 1973De08: {+40}Sc ions were produced by the (p,n) reaction on targets
40CA2c of natural calcium with E=27 MeV proton beam provided by the University
40CA3c Colorado cyclotron. |g rays were detected with a Ge(Li) detector.
40CA4c Measured E|g, I|g. Deduced levels.
40CA c {+40}Sc decays to {+36}Ar by |e|a (0.017% {I5}) and to {+39}K by
40CA2c |ep (0.44% {I7}) (1982Ho09)
40CA c Others:
40CA c |g: 1971BlZH, 1968Ka08, 1966An01, 1965Ri06, 1955Gl22
40CA c |b{++}: 1968Ar03, 1966An01
40CA c |b{++}|g coin: 1971BlZH
40CA c |ep: 1974Se11 (also 1973SeYM), 1969Ve04
40CA c T{-1/2}({+40}Sc): 1974Se11, 1973De08, 1972Mo08, 1969Ve04, 1968Ar03,
40CA2c 1966An01, 1962Sc08, 1955Gl22, 1954Ty33
40CA d THEORY: 1966Ku01
40CA cE TI$From |g-ray intensity imbalance at each level or total branching
40CA2cE of proton and alpha decays measured for each level in 1982Ho09.
40CA cG E,RI$From 1973De08.
40CA cG M,MR$From Adopted Gammas.
40CA cL E(A)$Assumed here as the same level populated in |ep and |e|a
40CA2cL decays, although 1982Ho09 treated these as separate levels
40CA3cL populated in the two decays
40CA cL E,J$From Adopted Levels, unless otherwise noted. In measurements of
40CA2cL |b{++} delayed particles, level energies are obtained from
40CA3cL E=S(p)({+40}Ca)+E(p)(c.m.) for delayed proton decays; |a-binding
40CA4cL energy({+40}Ca)+E|a(c.m.) for delayed |a decays. S(p)({+40}Ca)=8328.17
40CA5cL {I2}, |a-binding energy({+40}Ca)=7039.76 {I3} (2012Wa38). All states
40CA6cL above and including 9360 decay by protons to {+39}K and/or |a's
40CA7cL to {+36}Ar g.s.
40CA cL $E(p)(LAB) from 1982Ho09
40CA cL $Quoted values of %p and %|a in comments are % branchings per 100
40CA2cL parent decays in 1982Ho09.
40SC P 0 4- 182.3 MS 7 14323.1 28
40SC cP J,T$From Adopted Levels of {+40}Sc
40SC cP QP$From 2012Wa38
40CA N 0.9954 10 1.0 1.0
40CA cN NR$%|e|a=0.017 {I5}, %|ep=0.44 {I7} (1982Ho09)
40CA PN 3
40CA L 0 0+
40CA L 3735.8 8 3-
40CA E 1.060E4 4 19 5 0.0034 9 4.8 1 19 5
40CAS E EAV=4564.7 15$CK=0.0001603 2$CL=1.586E-5 2$CM+=2.664E-6 3
40CA cE E$E(|b{++})=9580 {I40} (1968Ar03)
40CA cE IB$20% {I1} (1968Ar03)
40CA G 3735.6 8 100 E3
40CA L 4490.6 10 5-
40CA E 9.78E3 10 17 5 0.0039 11 4.7 1 17 5
40CAS E EAV=4190.4 15$CK=0.00020461$CL=2.0237E-5 2$CM+=3.400E-6 4
40CA cE E$E(|b{++})=8760 {I100} (1968Ar03)
40CA cE IB$15% {I1} (1968Ar03)
40CA G 755.6 8 41 4
40CA L 5613.1 10 4-
40CA E 8.55E3 20 12 3 0.0041 10 4.6 1 12 3
40CAS E EAV=3634.8 15$CK=0.0003065 4$CL=3.031E-5 4$CM+=5.093E-6 6
40CA cE E$E(|b{++})=7530 {I200} (1968Ar03)
40CA cE IB$15% {I1} (1968Ar03)
40CA G 1126 3 12 2 M1+E2 -0.7 2
40CA G 1877.8 7 25.0 15M1+E2 -0.27 5
40CA L 6580 4 3-
40CA E 2.1 10 0.0011 5 5.0 2 2.1 10
40CAS E EAV=3157.5 24$CK=0.0004565 1$CL=4.515E-5 10$CM+=7.585E-6 17
40CA G 2844 3 2.1 10M1+E2 +3.1 19
40CA L 7658.3 10 4-
40CA E 6.75E3 15 49 4 0.042 3 3.31 4 49 4
40CAS E EAV=2627.3 15$CK=0.0007664 1$CL=7.582E-5 12$CM+=1.2738E-5 2
40CA cE E$E(|b{++})=5730 {I150} (1968Ar03)
40CA cE IB$50 {I1} (1968Ar03)
40CA G 2045.8 7 25.5 15
40CA G 3167.9 7 12 2
40CA G 3920.0 10 13 2
40CA L 9360 3 3-
40CA cL $E(p)(LAB)=1006 {I3}
40CA cL $%p=0.072 {I11}, %|a=8.2|*10{+-4} {I20}
40CA cL $E|a=2089 {I6}. |G{-|a}/|G{-p}=0.0119 {I5}
40CA cL E$weighted average of 9360 {I3} (from E(p)) and 9362 {I6} (from E|a)
40CA E 0.073 11 0.000183 5.4 1 0.073 11
40CAS E EAV=1797.5 20$CK=0.002222 7$CL=0.0002199 7$CM+=3.695E-5 12
40CA L 9416 8 3-
40CA cL $E(p)(LAB)=1060 {I8}
40CA cL $%p=0.044 {I8}
40CA E 0.044 8 0.000112 5.6 1 0.044 8
40CAS E EAV=1770.3 41$CK=0.002319 15$CL=0.0002295 1$CM+=3.86E-5 3
40CA L 9427 6 (3,4)-
40CA cL $E(p)(LAB)=1071 {I6}
40CA cL $%p=0.055 {I10}
40CA E 0.055 10 0.000143 5.5 1 0.055 10
40CAS E EAV=1765.0 32$CK=0.002338 12$CL=0.0002314 1$CM+=3.888E-5 20
40CA L 9452 3 3-
40CA cL $E(p)(LAB)=1095 {I3}, used for calibration (1982Ho09)
40CA cL $%p=0.110 {I17}
40CA E 0.110 17 0.000295 5.2 1 0.110 17
40CAS E EAV=1752.9 20$CK=0.002384 8$CL=0.0002359 8$CM+=3.964E-5 13
40CA L 9601 3 3-
40CA cL $E(p)(LAB)=1241 {I3}
40CA cL $%p=0.032 {I5}
40CA E 0.032 5 9.6E-5 15 5.7 1 0.032 5
40CAS E EAV=1680.9 20$CK=0.002680 9$CL=0.0002653 9$CM+=4.457E-5 15
40CA L 9811 4 (3-,4-,5-)
40CA cL $E(p)(LAB)=1445 {I4}
40CA cL $%p=0.0088 {I15}
40CA E 0.0088 15 3.1E-5 5 6.1 1 0.0088 15
40CAS E EAV=1579.7 24$CK=0.003189 14$CL=0.0003157 1$CM+=5.303E-5 23
40CA L 9829 8
40CA cL $E(p)(LAB)=1463 {I8}
40CA cL $%p=0.0026 {I7}
40CA cL E$probable doublet
40CA E 0.0026 7 9.4E-6 25 6.6 1 0.0026 7
40CAS E EAV=1571.1 41$CK=0.003238 24$CL=0.0003205 2$CM+=5.39E-5 4
40CA cE TI$ probably for a doublet
40CA L 9920 3 (3-,4-,5-)
40CA cL $E(p)(LAB)=1552 {I3}
40CA cL $%p=0.0050 {I9}
40CA E 0.0050 9 2.0E-5 4 6.3 1 0.0050 9
40CAS E EAV=1527.2 20$CK=0.003504 13$CL=0.0003469 1$CM+=5.828E-5 22
40CA L 9952 8 4+
40CA cL $%|a=1.6|*10{+-4} {I10}
40CA cL $E|a=2620 {I8}. |G{-|a}/|G{-p}|>0.5
40CA E 0.0001610 6.E-7 4 7.8 3 0.00016 10
40CAS E EAV=1511.9 41$CK=0.00361 3$CL=0.000357 3$CM+=6.00E-5 5
40CA L 9979 5 (3,4,5)
40CA cL $E(p)(LAB)=1609 {I5}
40CA cL $%p=9|*10{+-4} {I5}
40CA E 0.0009 5 4.E-6 2 7.0 3 0.0009 5
40CAS E EAV=1498.9 28$CK=0.003693 19$CL=0.0003656 1$CM+=6.14E-5 4
40CA L 10050 4 4-
40CA cL $E(p)(LAB)=1678 {I4}
40CA cL $%p=0.0042 {I9}
40CA E 0.0042 9 1.8E-5 4 6.3 1 0.0042 9
40CAS E EAV=1464.8 24$CK=0.003938 18$CL=0.0003899 1$CM+=6.55E-5 3
40CA L 10127 4 (3-,4+)
40CA cL $E(p)(LAB)=1752 {I4}
40CA cL $%p=0.0013 {I4}, %|a=1.9|*10{+-4} {I10}
40CA cL E$weighted average of 10126 {I4} (from E(p)) and 10129 {I8} (from E|a)
40CA cL $E|a=2780 {I8}. |G{-|a}/|G{-p}=0.14 {I5}
40CA E 0.0015 4 7.1E-6 19 6.7 1 0.0015 4
40CAS E EAV=1427.9 24$CK=0.004230 20$CL=0.0004187 2$CM+=7.03E-5 4
40CA L 10154 8 (3-,4+,5-)
40CA cL $%|a=3.2|*10{+-4} {I10}
40CA cL $E|a=2802 {I8}. |G{-|a}/|G{-p}|>2
40CA E 0.0003210 1.5E-6 5 7.3 2 0.00032 10
40CAS E EAV=1415.0 41$CK=0.00434 4$CL=0.000430 4$CM+=7.22E-5 6
40CA L 10193 8 (3-,4+,5-)
40CA cL $%|a=2.1|*10{+-4} {I10}
40CA cL $E|a=2837 {I8}. |G{-|a}/|G{-p}|>1
40CA E 0.0002110 1.1E-6 5 7.5 2 0.00021 10
40CAS E EAV=1396.3 41$CK=0.00450 4$CL=0.000446 4$CM+=7.49E-5 7
40CA L 10211 4 (3,4)-
40CA cL $E(p)(LAB)=1835 {I4}, used for calibration (1982Ho09)
40CA cL $%p=0.0139 {I22}
40CA E 0.0138 22 7.1E-5 11 5.7 1 0.0139 22
40CAS E EAV=1387.7 24$CK=0.004581 22$CL=0.0004536 2$CM+=7.62E-5 4
40CA L 10332 4 (3)-
40CA cL $E(p)(LAB)=1953 {I4}
40CA cL $%p=4.6|*10{+-4} {I20}
40CA E 0.0004620 2.6E-6 12 7.1 2 0.00046 20
40CAS E EAV=1329.9 24$CK=0.00516 3$CL=0.000511 3$CM+=8.58E-5 5
40CA L 10366 8
40CA cL $E(p)(LAB)=1986 {I8}
40CA cL $%p=3.0|*10{+-4} {I20}
40CA E 0.0003020 1.8E-6 12 7.2 3 0.00030 20
40CAS E EAV=1313.7 41$CK=0.00534 5$CL=0.000529 5$CM+=8.88E-5 8
40CA L 10447 4 3-
40CA cL $E(p)(LAB)=2065 {I4}
40CA cL $%p=0.0028 {I5}
40CA E 0.0028 5 1.8E-5 3 6.2 1 0.0028 5
40CAS E EAV=1275.1 24$CK=0.00581 3$CL=0.000575 3$CM+=9.66E-5 5
40CA L 10470 4 (3,5)- A
40CA cL $E(p)(LAB)=2089 {I4}
40CA cL $%p=0.0094 {I14}, %|a=7.8|*10{+-4} {I20}
40CA cL E$weighted average of 10471 {I4} (from E(p)) and 10465 {I7} (from E|a)
40CA cL $E|a=3082 {I7}. |G{-|a}/|G{-p}|>1
40CA E 0.0101 14 6.8E-5 9 5.6 1 0.0102 14
40CAS E EAV=1264.1 24$CK=0.00595 3$CL=0.000589 3$CM+=9.89E-5 6
40CA L 10504 4 (3,4,5)-
40CA cL $E(p)(LAB)=2121 {I4}
40CA cL $%p=0.0125 {I19}
40CA E 0.0124 19 8.6E-5 13 5.5 1 0.0125 19
40CAS E EAV=1248.0 24$CK=0.00617 4$CL=0.000610 4$CM+=0.0001026 6
40CA L 10519 7 (3-,4+,5-)
40CA cL $%|a=8.3|*10{+-4} {I20}
40CA cL $E|a=3132 {I7}. |G{-|a}/|G{-p}|>2
40CA E 0.0008220 5.8E-6 14 6.7 1 0.00083 20
40CAS E EAV=1240.8 36$CK=0.00627 5$CL=0.000620 5$CM+=0.0001042 9
40CA L 10582 5 (3,4,5)
40CA cL $E(p)(LAB)=2197 {I5}
40CA cL $%p=0.0017 {I4}
40CA E 0.0017 4 1.3E-5 3 6.3 1 0.0017 4
40CAS E EAV=1210.9 28$CK=0.00671 5$CL=0.000664 5$CM+=0.0001116 7
40CA L 10598 7 3-
40CA cL $E(p)(LAB)=2211 {I10}
40CA cL $%p=3.5|*10{+-4} {I20}, %|a=6.9|*10{+-4} {I20}
40CA cL E$weighted average of 10596 {I10} (from E(p)) and 10599 {I7} (from E|a)
40CA cL $E|a=3203 {I7}. |G{-|a}/|G{-p}=2.0 {I7}
40CA E 0.0010 3 7.6E-6 23 6.5 1 0.0010 3
40CAS E EAV=1203.3 36$CK=0.00683 6$CL=0.000676 6$CM+=0.0001136 1
40CA L 10693 5 3
40CA cL $E(p)(LAB)=2305 {I5}
40CA cL $%p=8|*10{+-4} {I3}
40CA E 0.0008 3 7.E-6 3 6.6 27 0.0008 3
40CAS E EAV=1158.3 28$CK=0.00760 5$CL=0.000752 5$CM+=0.0001264 9
40CA L 10725 5 (3,5)-
40CA cL $%|a=0.0059 {I12}
40CA cL $E|a=3316 {I5}. |G{-|a}/|G{-p}|>30
40CA E 0.0058 12 5.2E-5 11 5.7 1 0.0059 12
40CAS E EAV=1143.1 28$CK=0.00788 6$CL=0.000781 6$CM+=0.0001311 9
40CA L 10754 8 (3,4,5)
40CA cL $E(p)(LAB)=2365 {I8}
40CA cL $%p=9|*10{+-4} {I3}
40CA E 0.0009 3 8.E-6 3 6.5 2 0.0009 3
40CAS E EAV=1129.4 40$CK=0.00815 9$CL=0.000807 8$CM+=0.0001357 1
40CA L 10776 5 3-
40CA cL $E(p)(LAB)=2386 {I5}
40CA cL $%p=0.0128 {I20}
40CA E 0.0127 200.00011919 5.3 1 0.0128 20
40CAS E EAV=1119.0 27$CK=0.00837 6$CL=0.000829 6$CM+=0.0001392 1
40CA L 10817 7 (3-,4+,5-) A
40CA cL $E(p)(LAB)=2423 {I9}
40CA cL $%p=8|*10{+-4} {I3}, %|a=4.2|*10{+-4} {I20}
40CA cL E$weighted average of 10814 {I9} (from E(p)) and 10819 {I7} (from E|a)
40CA cL $E|a=3401 {I7}. |G{-|a}/|G{-p}|>0.5
40CA E 0.0012 3 1.2E-5 3 6.3 1 0.0012 3
40CAS E EAV=1099.6 36$CK=0.00879 8$CL=0.000870 8$CM+=0.0001462 1
40CA L 10849 5 (3,4,5)-
40CA cL $E(p)(LAB)=2457 {I5}
40CA cL $%p=0.00380 {I20}
40CA E 0.0038 20 3.9E-5 20 5.8 2 0.0038 20
40CAS E EAV=1084.5 27$CK=0.00913 7$CL=0.000905 7$CM+=0.0001520 1
40CA L 10909 5 (3,4,5-)
40CA cL $E(p)(LAB)=2516 {I5}
40CA cL $%p=3.5|*10{+-4} {I20}
40CA E 0.0003520 3.8E-6 22 6.8 3 0.00035 20
40CAS E EAV=1057.0 27$CK=0.00984 7$CL=0.000975 7$CM+=0.0001638 1
40CA L 10956 8 3-
40CA cL $E(p)(LAB)=2562 {I8}
40CA cL $%p=0.0020 {I4}
40CA E 0.0020 4 2.3E-5 5 6.0 1 0.0020 4
40CAS E EAV=1034.9 40$CK=0.01044 12$CL=0.001034 12$CM+=0.0001738 1
40CA L 10973 7 (3,4,5)
40CA cL $E(p)(LAB)=2578 {I7}
40CA cL $%p=0.0020 {I4}
40CA E 0.0020 4 2.4E-5 5 6.0 1 0.0020 4
40CAS E EAV=1026.9 36$CK=0.01067 11$CL=0.001057 11$CM+=0.0001776 1
40CA L 10987 12 (3-,4+)
40CA cL $%|a=1.1|*10{+-4} {I10}
40CA cL $E|a=3552 {I12}. |G{-|a}/|G{-p}|>0.2
40CA E 0.0001110 1.3E-6 12 7.2 4 0.00011 10
40CAS E EAV=1020.3 58$CK=0.01087 18$CL=0.001076 18$CM+=0.000181 3
40CA L 11037 7 (3,4,5)
40CA cL $E(p)(LAB)=2641 {I7}
40CA cL $%p=6.9|*10{+-4} {I20}
40CA E 0.0006820 9.E-6 3 6.4 2 0.00069 20
40CAS E EAV=996.8 36$CK=0.01160 12$CL=0.001149 12$CM+=0.0001930 2
40CA L 11088 12 (3-,4+)
40CA cL $%|a=1.0|*10{+-4} {I10}
40CA cL $E|a=3643 {I12}. |G{-|a}/|G{-p}|>0.5
40CA E 0.0001010 1.4E-6 14 7.2 5 0.00010 10
40CAS E EAV=973.0 58$CK=0.01242 21$CL=0.001230 21$CM+=0.000207 4
40CA L 11114 6
40CA cL $E(p)(LAB)=2716 {I6}
40CA cL $%p=0.0011 {I3}
40CA cL E$probably a doublet
40CA E 0.0011 3 1.6E-5 4 6.1 1 0.0011 3
40CAS E EAV=960.8 31$CK=0.01287 12$CL=0.001274 12$CM+=0.0002141 2
40CA cE TI$probably for a doublet
40CA L 11142 6 (3,4,5)-
40CA cL $E(p)(LAB)=2743 {I6}
40CA cL $%p=0.0023 {I4}
40CA E 0.0023 4 3.4E-5 6 5.8 1 0.0023 4
40CAS E EAV=947.7 31$CK=0.01337 13$CL=0.001325 13$CM+=0.0002225 2
40CA L 11205 5 (3)-
40CA cL $%|a=0.0038 {I8}
40CA cL $E|a=3748 {I5}. |G{-|a}/|G{-p}|>6
40CA E 0.0037 8 6.2E-5 13 5.5 1 0.0038 8
40CAS E EAV=918.3 27$CK=0.01461 12$CL=0.001447 12$CM+=0.0002432 2
40CA L 11217 5 3-
40CA cL $E(p)(LAB)=2816 {I5}, used for calibration (1982Ho09)
40CA cL $%p=0.0068 {I11}
40CA E 0.0067 11 0.000112 5.2 1 0.0068 11
40CAS E EAV=912.7 27$CK=0.01486 13$CL=0.001472 13$CM+=0.0002474 2
40CA L 11312 5 (3-,4+,5-) A
40CA cL $E(p)(LAB)=2912 {I5}
40CA cL $%p=5.1|*10{+-4} {I20}, %|a=2.4|*10{+-4} {I10}
40CA cL E$weighted average of 11315 {I5} (from E(p)) and 11306 {I7} (from E|a)
40CA cL $E|a=3839 {I7}. |G{-|a}/|G{-p}|>1
40CA E 0.0008 3 2.E-5 1 6.1 2 0.00075 22
40CAS E EAV=868.5 27$CK=0.01709 15$CL=0.001693 15$CM+=0.0002845 2
40CA L 11418 7 4+
40CA cL $E(p)(LAB)=3012 {I7}
40CA cL $%p=2.8|*10{+-4} {I20}
40CA E 0.0002720 6.E-6 4 6.4 4 0.00028 20
40CAS E EAV=819.3 35$CK=0.02014 25$CL=0.001995 25$CM+=0.000335 4
40CA L 11452 9
40CA cL $E(p)(LAB)=3045 {I9}
40CA cL $%p=8.3|*10{+-4} {I20}
40CA cL E,J$probable doublet of natural-parity levels
40CA E 0.0008120 2.0E-5 5 5.9 1 0.00083 20
40CAS E EAV=803.6 44$CK=0.0213 4$CL=0.00211 4$CM+=0.000354 6
40CA cE TI$ probably for a doublet
40CA L 11472 7 (3-,4+,5-)
40CA cL $%|a=3.6|*10{+-4} {I10}
40CA cL $E|a=3988 {I7}. |G{-|a}/|G{-p}|>1
40CA E 0.0003510 8.8E-6 25 6.3 1 0.00036 10
40CAS E EAV=794.4 35$CK=0.0220 3$CL=0.00218 3$CM+=0.000366 5
40CA L 11549 6 (3,5)-
40CA cL $%|a=6.6|*10{+-4} {I20}
40CA cL $E|a=4058 {I6}. |G{-|a}/|G{-p}|>6
40CA E 0.0006419 1.8E-5 6 5.9 2 0.00066 20
40CAS E EAV=758.9 31$CK=0.0250 3$CL=0.00248 3$CM+=0.000416 5
40CA L 11616 10 (3,4,5)
40CA cL $E(p)(LAB)=3205 {I10}
40CA cL $%p=2.4|*10{+-4} {I10}
40CA E 0.0002310 8.E-6 3 6.3 2 0.00024 10
40CAS E EAV=728.2 48$CK=0.0281 6$CL=0.00278 6$CM+=0.000467 9
40CA L 11663 7 (3-,4+,5-)
40CA cL $%|a=2.3|*10{+-4} {I10}
40CA cL $E|a=4160 {I7}. |G{-|a}/|G{-p}|>2
40CA E 0.0002210 8.E-6 3 6.2 2 0.00023 10
40CAS E EAV=706.6 35$CK=0.0305 5$CL=0.00303 5$CM+=0.000509 7
40CA L 11724 4 (3,5)- A
40CA cL $E(p)(LAB)=3308 {I10}
40CA cL $%p=7|*10{+-4} {I3}, %|a=9|*10{+-5} {I10}
40CA cL E$weighted average of 11723 {I4} (from E(p)) and 11727 {I7} (from E|a)
40CA cL $E|a=4218 {I7}. |G{-|a}/|G{-p}|>0.2
40CA E 0.0008 3 3.E-5 1 5.6 2 0.00082 32
40CAS E EAV=678.8 23$CK=0.0342 4$CL=0.00339 4$CM+=0.000569 6
40CA L 11791 10 4
40CA cL $E(p)(LAB)=3376 {I10}
40CA cL $%p=2.6|*10{+-4} {I20}
40CA E 0.0002519 1.1E-5 9 6.0 4 0.00026 20
40CAS E EAV=648.3 48$CK=0.0389 8$CL=0.00386 8$CM+=0.000648 14
40CA L 11841 6 (3-,4+,5-)
40CA cL $%|a=2.8|*10{+-4} {I10}
40CA cL $E|a=4320 {I6}. |G{-|a}/|G{-p}|>0.7
40CA E 0.0002710 1.3E-5 5 5.9 2 0.00028 10
40CAS E EAV=625.6 30$CK=0.0430 6$CL=0.00426 6$CM+=0.000716 10
40CA L 12001 7 (3,5)-
40CA cL $E(p)(LAB)=3584 {I10}
40CA cL $%p=1.0|*10{+-4} {I10}, %|a=5.0|*10{+-4} {I20}
40CA cL $E|a=4462 {I7}. |G{-|a}/|G{-p}=5 {I2}
40CA E 0.0005621 4.1E-5 15 5.4 2 0.00060 22
40CAS E EAV=553.4 34$CK=0.0606 11$CL=0.00600 11$CM+=0.001009 18
40CA L 12034 10 (3,4,5)-
40CA cL $E(p)(LAB)=3613 {I10}
40CA cL $%p=2.4|*10{+-4} {I10}
40CA E 0.000229 1.7E-5 7 5.8 2 0.00024 10
40CAS E EAV=538.6 47$CK=0.0653 16$CL=0.00647 16$CM+=0.00109 3
40CA L 12066 9 (3,5)-
40CA cL $E(p)(LAB)=3649 {I10}
40CA cL $%p=1.2|*10{+-4} {I10}, %|a=1.6|*10{+-4} {I10}
40CA cL $E|a=4519 {I9}. |G{-|a}/|G{-p}=1.3 {I7}
40CA E 0.0002614 2.2E-5 12 5.7 3 0.00028 15
40CAS E EAV=524.3 43$CK=0.0703 16$CL=0.00697 16$CM+=0.00117 3