核素图

Table of Isotopes (1998) Z=0-28 Part 1 of 2 n1 1/2+ 614.8 s β- H3 1/2+ 12.33 y β- H4 2- Li4 2- H5 He5 3/2- 0.60 MeV n Li5 3/2- 1.5 MeV p Be5 H6 He6 0+ 806.7 ms β- Be6 0+ 92 keV 2p He7 (3/2)- 160 keV n Be7 3/2- 53.29 d EC B7 (3/2-) 1.4 MeV He8 0+ 119.0 ms β-n Li8 2+ 838 ms β-2α Be8 0+ 6.8 eV 2α B8 2+ 770 ms EC2α C8 0+ 230 keV He9 (1/2-) 0.30 MeV n Li9 3/2- 178.3 ms β-n B9 3/2- 0.54 keV 2pα C9 (3/2-) 126.5 ms ECp,ECp2α,... He10 0+ 0.3 MeV n Li10 1.2 MeV n Be10 0+ 1.51E+6 y β- C10 0+ 19.255 s EC N10 Li11 3/2- 8.5 ms β-n,β-2n,... Be11 1/2+ 13.81 s β-α C11 3/2- 20.39 m EC N11 1/2+ 740 keV p Li12 Be12 0+ 23.6 ms β- B12 1+ 20.20 ms β-3α N12 1+ 11.000 ms EC3α O12 0+ 0.40 MeV 2p Be13 (1/2,5/2)+ 0.9 MeV n B13 3/2- 17.36 ms β-n N13 1/2- 9.965 m EC O13 (3/2-) 8.58 ms ECp Be14 0+ 4.35 ms β-n,β-2n,... B14 2- 13.8 ms β- C14 0+ 5730 y β- O14 0+ 70.606 s EC F14 (2-) p B15 10.5 ms β- C15 1/2+ 2.449 s β- O15 1/2- 122.24 s EC F15 (1/2+) 1.0 MeV p B16 (0-) 200 Ps n C16 0+ 0.747 s β-n N16 2- 7.13 s β-α F16 0- 40 keV p Ne16 0+ 122 keV 2p B17 (3/2-) 5.08 ms β-n C17 193 ms β-n N17 1/2- 4.173 s β-n F17 5/2+ 64.49 s EC Ne17 1/2- 109.2 ms ECp,ECα,... B18 C18 0+ 95 ms β-n N18 1- 624 ms β-n,β-α,... F18 1+ 109.77 m EC Ne18 0+ 1672 ms EC Na18 B19 C19 46 ms β-n N19 (1/2-) 0.304 s β-n O19 5/2+ 26.91 s β- Ne19 1/2+ 17.22 s EC Na19 p C20 0+ 14 ms β-n N20 100 ms β-n O20 0+ 13.51 s β- F20 2+ 11.00 s β- Na20 2+ 447.9 ms ECα Mg20 0+ 95 ms ECp C21 N21 85 ms β-n O21 (1/2,3/2,5/2)+ 3.42 s β- F21 5/2+ 4.158 s β- Na21 3/2+ 22.49 s Mg21 (3/2,5/2)+ 122 ms ECp Al21 C22 0+ N22 24 ms β-n O22 0+ 2.25 s β- F22 4+,(3+) 4.23 s β- Na22 3+ 2.6019 y Mg22 0+ 3.857 s EC Al22 70 ms ECp Si22 0+ 6 ms ECp N23 O23 82 ms β-n F23 (3/2,5/2)+ 2.23 s β- Ne23 5/2+ 37.24 s β- Mg23 3/2+ 11.317 s EC Al23 0.47 s ECp Si23 N24 O24 0+ 61 ms β-n F24 (1,2,3)+ 0.34 s β- Ne24 0+ 3.38 m β- Na24 4+ 14.9590 h β- * Al24 4+ 2.053 s ECα * Si24 0+ 102 ms ECp P24 O25 F25 59 ms β-n Ne25 (1/2,3/2)+ 602 ms β- Na25 5/2+ 59.1 s β- Al25 5/2+ 7.183 s EC Si25 5/2+ 220 ms ECp P25 O26 F26 Ne26 0+ 197 ms β-n Na26 3+ 1.072 s β- Al26 5+ 7.4E+5 y EC * Si26 0+ 2.234 s EC P26 (3+) 20 ms ECp S26 F27 Ne27 32 ms β-n Na27 5/2+ 301 ms β-n Mg27 1/2+ 9.458 m β- Si27 5/2+ 4.16 s EC P27 1/2+ 260 ms ECp S27 21 ms ECp,EC2p,... F28 Ne28 0+ 17 ms β-n Na28 1+ 30.5 ms β-n Mg28 0+ 20.91 h β- Al28 3+ 2.2414 m β- P28 3+ 270.3 ms ECp,ECα,... S28 0+ 125 ms ECp Cl28 F29 Ne29 0.2 s β- Na29 3/2 44.9 ms β-n Mg29 3/2+ 1.30 s β- Al29 5/2+ 6.56 m β- P29 1/2+ 4.140 s EC S29 5/2+ 187 ms ECp Cl29 Ne30 0+ Na30 2+ 48 ms β-n,β-2n,... Mg30 0+ 335 ms β- Al30 3+ 3.60 s β- P30 1+ 2.498 m EC S30 0+ 1.178 s EC Cl30 Ar30 Ne31 Na31 3/2+ 17.0 ms β-n,β-2n,... Mg31 230 ms β-n Al31 (3/2,5/2)+ 644 ms β- Si31 3/2+ 157.3 m β- S31 1/2+ 2.572 s EC Cl31 150 ms ECp Ar31 15.1 ms ECp,EC2p,... Ne32 0+ Na32 (3-,4-) 13.2 ms β-n,β-2n,... Mg32 0+ 120 ms β-n Al32 1+ 33 ms β- Si32 0+ 172 y β- P32 1+ 14.262 d β- Cl32 1+ 298 ms ECp,ECα,... Ar32 0+ 98 ms ECp K32 Na33 8.2 ms β-n,β-2n,... Mg33 90 ms β-n Al33 Si33 6.18 s β- P33 1/2+ 25.34 d β- Cl33 3/2+ 2.511 s EC Ar33 1/2+ 173.0 ms ECp K33 Na34 5.5 ms β-2n Mg34 0+ 20 ms β-n Al34 60 ms β-n Si34 0+ 2.77 s β- P34 1+ 12.43 s β- Cl34 0+ 1.5264 s EC * Ar34 0+ 844.5 ms EC K34 Ca34 0+ Na35 1.5 ms β-n Mg35 Al35 150 ms β-n Si35 0.78 s β- P35 1/2+ 47.3 s β- S35 3/2+ 87.51 d β- Ar35 3/2+ 1.775 s EC K35 3/2+ 190 ms ECp Ca35 50 ms EC2p Mg36 0+ Al36 Si36 0+ 0.45 s β-n P36 5.6 s β- Cl36 2+ 3.01E+5 y EC,β- K36 2+ 342 ms ECp,ECα,... Ca36 0+ 102 ms ECp Sc36 Mg37 Al37 Si37 P37 2.31 s β- S37 7/2- 5.05 m β- Ar37 3/2+ 35.04 d EC K37 3/2+ 1.226 s EC Ca37 3/2+ 181.1 ms ECp Sc37 Al38 Si38 0+ P38 0.64 s β-n S38 0+ 170.3 m β- Cl38 2- 37.24 m β- * K38 3+ 7.636 m EC * Ca38 0+ 440 ms EC Sc38 Ti38 0+ Al39 Si39 P39 0.16 s β-n S39 (3/2,5/2,7/2)- 11.5 s β- Cl39 3/2+ 55.6 m β- Ar39 7/2- 269 y β- Ca39 3/2+ 859.6 ms EC Sc39 (7/2-) Ti39 (3/2+) 26 ms ECp Si40 0+ P40 260 ms β-n S40 0+ 8.8 s β- Cl40 2- 1.35 m β- Sc40 4- 182.3 ms ECp,ECα,... Ti40 0+ 50 ms EC V40 Si41 P41 120 ms β-n S41 Cl41 (1/2,3/2)+ 38.4 s β- Ar41 7/2- 109.34 m β- Ca41 7/2- 1.03E+5 y EC Sc41 7/2- 596.3 ms EC Ti41 3/2+ 80 ms ECp V41 Si42 0+ P42 110 ms β-n S42 0+ 0.56 s β-n Cl42 6.8 s β- Ar42 0+ 32.9 y β- K42 2- 12.360 h β- Sc42 0+ 681.3 ms EC * Ti42 0+ 199 ms EC V42 Cr42 P43 33 ms β-n S43 220 ms β-n Cl43 3.3 s β- Ar43 (3/2,5/2) 5.37 m β- K43 3/2+ 22.3 h β- Sc43 7/2- 3.891 h EC Ti43 7/2- 509 ms EC V43 (7/2-) 800 ms EC Cr43 (3/2+) 21 ms ECp,ECα,... P44 S44 0+ 123 ms β-n Cl44 434 ms β-n Ar44 0+ 11.87 m β- K44 2- 22.13 m β- Sc44 2+ 3.927 h EC * Ti44 0+ 63 y EC V44 (2+) 90 ms ECα * Cr44 0+ 53 ms ECp Mn44 P45 S45 82 ms β-n Cl45 400 ms β-n Ar45 21.48 s β- K45 3/2+ 17.3 m β- Ca45 7/2- 162.61 d β- * Ti45 7/2- 184.8 m EC V45 7/2- 547 ms EC Cr45 50 ms ECp Mn45 Fe45 P46 S46 0+ Cl46 223 ms β-n Ar46 0+ 8.4 s β- K46 (2-) 105 s β- Sc46 4+ 83.79 d β- * V46 0+ 422.37 ms EC * Cr46 0+ 0.26 s EC Mn46 41 ms ECp Fe46 0+ 20 ms ECp S47 Cl47 β-n Ar47 700 ms β-n K47 1/2+ 17.50 s β- Ca47 7/2- 4.536 d β- Sc47 7/2- 3.3492 d β- V47 3/2- 32.6 m EC Cr47 3/2- 500 ms EC Mn47 100 ms ECp Fe47 27 ms ECp S48 0+ Cl48 Ar48 0+ K48 (2-) 6.8 s β-n Sc48 6+ 43.67 h β- V48 4+ 15.9735 d EC Cr48 0+ 21.56 h EC Mn48 4+ 158.1 ms ECp,ECα,... Fe48 0+ 44 ms ECp Co48 S49 Cl49 Ar49 K49 (3/2+) 1.26 s β-n Ca49 3/2- 8.718 m Sc49 7/2- 57.2 m β- V49 7/2- 330 d Cr49 5/2- 42.3 m Mn49 5/2- 382 ms EC Fe49 (7/2-) 70 ms ECp Co49 Cl50 Ar50 0+ K50 (0-,1,2-) 472 ms β-n Ca50 0+ 13.9 s β- Sc50 5+ 102.5 s β- * Mn50 0+ 283.88 ms EC * Fe50 0+ 150 ms ECp Co50 (6+) 44 ms ECp Ni50 Cl51 Ar51 K51 (1/2+,3/2+) 365 ms β-n Ca51 (3/2-) 10.0 s β-n Sc51 (7/2)- 12.4 s β- Ti51 3/2- 5.76 m β- Cr51 7/2- 27.702 d EC Mn51 5/2- 46.2 m EC Fe51 (5/2-) 305 ms EC Co51 Ni51 Ar52 0+ K52 105 ms β-n Ca52 0+ 4.6 s β- Sc52 3+ 8.2 s β- Ti52 0+ 1.7 m β- V52 3+ 3.743 m β- Mn52 6+ 5.591 d EC * Fe52 0+ 8.275 h EC * Co52 18 ms EC Ni52 0+ 38 ms ECp Ar53 K53 (3/2+) 30 ms β-n Ca53 (3/2-,5/2-) 90 ms β-n Sc53 Ti53 (3/2)- 32.7 s β- V53 7/2- 1.61 m β- Mn53 7/2- 3.74E+6 y EC Fe53 7/2- 8.51 m EC * Co53 (7/2-) 240 ms EC * Ni53 (7/2-) 45 ms ECp K54 10 ms β-n Ca54 0+ Sc54 Ti54 0+ V54 3+ 49.8 s β- Mn54 3+ 312.3 d EC,β- Co54 0+ 193.23 ms EC * Ni54 0+ EC K55 Ca55 Sc55 Ti55 V55 (7/2-) 6.54 s β- Cr55 3/2- 3.497 m β- Fe55 3/2- 2.73 y EC Co55 7/2- 17.53 h EC Ni55 7/2- 212.1 ms EC Ca56 0+ Sc56 Ti56 0+ V56 Cr56 0+ 5.94 m β- Mn56 3+ 2.5785 h β- Co56 4+ 77.27 d EC Ni56 0+ 6.077 d EC Ca57 Sc57 Ti57 V57 Cr57 3/2-,5/2-,7/2- 21.1 s β- Mn57 5/2- 85.4 s β- Co57 7/2- 271.79 d EC Ni57 3/2- 35.60 h Sc58 Ti58 0+ V58 Cr58 0+ 7.0 s β- Mn58 0+ 3.0 s β- * Co58 2+ 70.82 d EC * Sc59 Ti59 V59 Cr59 0.74 s β- Mn59 3/2-,5/2- 4.6 s β- Fe59 3/2- 44.503 d β- Ni59 3/2- 7.6E+4 y EC Ti60 0+ V60 Cr60 0+ 0.57 s β- Mn60 0+ 51 s β- * Fe60 0+ 1.5E+6 y β- Co60 5+ 5.2714 y * Ti61 V61 Cr61 Mn61 (5/2-) 0.71 s β- Fe61 3/2-,5/2- 5.98 m β- Co61 7/2- 1.650 h β- V62 Cr62 0+ Mn62 (3+) 0.88 s β- Fe62 0+ 68 s β- Co62 2+ 1.50 m β- * V63 Cr63 Mn63 0.25 s β- Fe63 (5/2)- 6.1 s β- Co63 (7/2)- 27.4 s β- Ni63 1/2- 100.1 y β- Cr64 0+ Mn64 Fe64 0+ 2.0 s β- Co64 1+ 0.30 s β- Cr65 Mn65 Fe65 0.4 s β- Co65 (7/2)- 1.20 s β- Ni65 5/2- 2.5172 h β- Mn66 Fe66 0+ Co66 (3+) 0.23 s β- Ni66 0+ 54.6 h β- Mn67 Fe67 Co67 (7/2-) 0.42 s β- Ni67 (1/2-) 21 s β- Fe68 0+ 0.10 s β- Co68 0.18 s β- Ni68 0+ 19 s β- Fe69 Co69 0.27 s β- Ni69 11.4 s β- Co70 Ni70 0+ Co71 Ni71 1.86 s β- Co72 Ni72 0+ 2.1 s β- Ni73 0.90 s β- Ni74 0+ 1.1 s β- Ni75 Ni76 0+ Ni77 Ni78 0+ H1 1/2+ 99.985 H2 1+ 0.015 He3 1/2+ 0.000137 He4 0+ 99.999863 Li6 1+ 7.5 Li7 3/2- 92.5 Be9 3/2- 100 B10 3+ 19.9 B11 3/2- 80.1 C12 0+ 98.90 C13 1/2- 1.10 N14 1+ 99.634 N15 1/2- 0.366 O16 0+ 99.762 O17 5/2+ 0.038 O18 0+ 0.200 F19 1/2+ 100 Ne20 0+ 90.48 Ne21 3/2+ 0.27 Ne22 0+ 9.25 Na23 3/2+ 100 Mg24 0+ 78.99 Mg25 5/2+ 10.00 Mg26 0+ 11.01 Al27 5/2+ 100 Si28 0+ 92.23 Si29 1/2+ 4.67 Si30 0+ 3.10 P31 1/2+ 100 S32 0+ 95.02 S33 3/2+ 0.75 S34 0+ 4.21 Cl35 3/2+ 75.77 S36 0+ 0.02 Ar36 0+ 0.337 Cl37 3/2+ 24.23 Ar38 0+ 0.063 K39 3/2+ 93.2581 Ar40 0+ 99.600 K40 4- 1.277E+9 y EC,β- 0.0117 Ca40 0+ 96.941 K41 3/2+ 6.7302 Ca42 0+ 0.647 Ca43 7/2- 0.135 Ca44 0+ 2.086 Sc45 7/2- 100 Ca46 0+ 0.004 Ti46 0+ 8.0 Ti47 5/2- 7.3 Ca48 0+ 6E+18 y β-,β-β- 0.187 Ti48 0+ 73.8 Ti49 7/2- 5.5 Ti50 0+ 5.4 V50 6+ 1.4E+17 y EC,β- 0.250 Cr50 0+ 1.8E+17 y ECEC 4.345 V51 7/2- 99.750 Cr52 0+ 83.789 Cr53 3/2- 9.501 Cr54 0+ 2.365 Fe54 0+ 5.8 Mn55 5/2- 100 Fe56 0+ 91.72 Fe57 1/2- 2.2 Fe58 0+ 0.28 Ni58 0+ 68.077 Co59 7/2- 100 Ni60 0+ 26.223 Ni61 3/2- 1.140 Ni62 0+ 3.634 Ni64 0+ 0.926 1 H 91.0% 1.00794 1 -259.34° -252.87° -240.18° +1-1 2 He 8.9% 4.002602 2 -272.2° -268.93° -267.96° 0 3 Li 1.86×10 -7% 6.941 2 1 180.5° 1342° +1 4 Be 2.38×10 -9% 9.012182 2 2 1287° 2471° +2 5 B 6.9×10 -8% 10.811 2 3 2075° 4000° +3 6 C 0.033% 12.0107 2 4 4492t° 3642s° +2+4-4 7 N 0.0102% 14.00674 2 5 -210.00° -195.79° -146.94° ±1±2±3+4+5 8 O 0.078% 15.9994 2 6 -218.79° -182.95° -118.56° -2 9 F 2.7×10 -6% 18.9984032 2 7 -219.62° -188.12° -129.02° -1 10 Ne 0.0112% 20.1797 2 8 -248.59° -246.08° -228.7° 0 11 Na 0.000187% 22.989770 2 8 1 97.80° 883° +1 12 Mg 0.00350% 24.3050 2 8 2 650° 1090° +2 13 Al 0.000277% 26.981538 2 8 3 660.32° 2519° +3 14 Si 0.00326% 28.0855 2 8 4 1414° 3265° +2+4-4 15 P 0.000034% 30.973761 2 8 5 44.15° 280.5° 721° +3+5-3 16 S 0.00168% 32.066 2 8 6 115.21° 444.60° 1041° +4+6-2 17 Cl 0.000017% 35.4527 2 8 7 -101.5° -34.04° 143.8° +1+5+7-1 18 Ar 0.000329% 39.948 2 8 8 -189.35° -185.85° -122.28° 0 19 K 0.0000123% 39.0983 2 8 8 1 63.38° 759° +1 20 Ca 0.000199% 40.078 2 8 8 2 842° 1484° +2 21 Sc 1.12×10 -7% 44.955910 2 8 9 2 1541° 2836° +3 22 Ti 7.8×10 -6% 47.867 2 8 10 2 1668° 3287° +2+3+4 23 V 9.6×10 -7% 50.9415 2 8 11 2 1910° 3407° +2+3+4+5 24 Cr 0.000044% 51.9961 2 8 13 1 1907° 2671° +2+3+6 25 Mn 0.000031% 54.938049 2 8 13 2 1246° 2061° +2+3+4+7 26 Fe 0.00294% 55.845 2 8 14 2 1538° 2861° +2+3 27 Co 7.3×10 -6% 58.933200 2 8 15 2 1495° 2927° +2+3 28 Ni 0.000161% 58.6934 2 8 16 2 1455° 2913° +2+3 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 50 Decay Q-value Range Q(??) Q(β−)>0 Q(β−)-SN>0 Q(β−)>0 + Q(EC)>0 Stable to Beta Decay Q(EC)>0 Q(EC)-SP>0 Q(P)>0 Naturally Abundant Z=0-28 Part 2 of 2 Na24 1+ 20.20 ms β-,IT Al24 1+ 131.3 ms IT,ECα,... Al26 0+ 6.3452 s EC Cl34 3+ 32.00 m EC,IT Cl38 5- 715 ms IT K38 0+ 923.9 ms EC Sc42 7+,(5+,6+) 61.7 s EC Sc44 6+ 58.6 h EC,IT V44 (6+) 150 ms EC Sc45 3/2+ 318 ms IT Sc46 1- 18.75 s IT V46 3+ 1.02 ms IT Sc50 2+,3+ 0.35 s β-,IT Mn50 5+ 1.75 m EC Mn52 2+ 21.1 m EC,IT Fe52 (12+) 45.9 s EC Fe53 19/2- 2.58 m IT Co53 (19/2-) 247 ms EC,p Co54 (7)+ 1.48 m EC Mn58 3+ 65.3 s β-,IT Co58 5+ 9.15 h IT Mn60 3+ 1.77 s β-,IT Co60 2+ 10.467 m β-,IT Co62 5+ 13.91 m β-,IT 1 H 91.0% 1.00794 1 -259.34° -252.87° -240.18° +1-1 2 He 8.9% 4.002602 2 -272.2° -268.93° -267.96° 0 3 Li 1.86×10 -7% 6.941 2 1 180.5° 1342° +1 4 Be 2.38×10 -9% 9.012182 2 2 1287° 2471° +2 5 B 6.9×10 -8% 10.811 2 3 2075° 4000° +3 6 C 0.033% 12.0107 2 4 4492t° 3642s° +2+4-4 7 N 0.0102% 14.00674 2 5 -210.00° -195.79° -146.94° ±1±2±3+4+5 8 O 0.078% 15.9994 2 6 -218.79° -182.95° -118.56° -2 9 F 2.7×10 -6% 18.9984032 2 7 -219.62° -188.12° -129.02° -1 10 Ne 0.0112% 20.1797 2 8 -248.59° -246.08° -228.7° 0 11 Na 0.000187% 22.989770 2 8 1 97.80° 883° +1 12 Mg 0.00350% 24.3050 2 8 2 650° 1090° +2 13 Al 0.000277% 26.981538 2 8 3 660.32° 2519° +3 14 Si 0.00326% 28.0855 2 8 4 1414° 3265° +2+4-4 15 P 0.000034% 30.973761 2 8 5 44.15° 280.5° 721° +3+5-3 16 S 0.00168% 32.066 2 8 6 115.21° 444.60° 1041° +4+6-2 17 Cl 0.000017% 35.4527 2 8 7 -101.5° -34.04° 143.8° +1+5+7-1 18 Ar 0.000329% 39.948 2 8 8 -189.35° -185.85° -122.28° 0 19 K 0.0000123% 39.0983 2 8 8 1 63.38° 759° +1 20 Ca 0.000199% 40.078 2 8 8 2 842° 1484° +2 21 Sc 1.12×10 -7% 44.955910 2 8 9 2 1541° 2836° +3 22 Ti 7.8×10 -6% 47.867 2 8 10 2 1668° 3287° +2+3+4 23 V 9.6×10 -7% 50.9415 2 8 11 2 1910° 3407° +2+3+4+5 24 Cr 0.000044% 51.9961 2 8 13 1 1907° 2671° +2+3+6 25 Mn 0.000031% 54.938049 2 8 13 2 1246° 2061° +2+3+4+7 26 Fe 0.00294% 55.845 2 8 14 2 1538° 2861° +2+3 27 Co 7.3×10 -6% 58.933200 2 8 15 2 1495° 2927° +2+3 28 Ni 0.000161% 58.6934 2 8 16 2 1455° 2913° +2+3 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 50 Decay Q-value Range Q(??) Q(β−)>0 Q(β−)-SN>0 Q(β−)>0 + Q(EC)>0 Stable to Beta Decay Q(EC)>0 Q(EC)-SP>0 Q(P)>0 Naturally Abundant Z=28-45 Part 1 of 3 Ni51 Ni52 0+ 38 ms ECp Cu52 Ni53 (7/2-) 45 ms ECp Cu53 Ni54 0+ EC Cu54 Zn54 0+ Ni55 7/2- 212.1 ms EC Cu55 EC Zn55 Ni56 0+ 6.077 d EC Cu56 Zn56 0+ Ga56 Ni57 3/2- 35.60 h Cu57 3/2- 199.4 ms EC Zn57 (7/2-) 40 ms ECp Ga57 Cu58 1+ 3.204 s EC Zn58 0+ 65 ms EC Ga58 Ge58 0+ Ni59 3/2- 7.6E+4 y EC Cu59 3/2- 81.5 s EC Zn59 3/2- 182.0 ms ECp Ga59 Ge59 Cu60 2+ 23.7 m EC Zn60 0+ 2.38 m EC Ga60 Ge60 As60 Cu61 3/2- 3.333 h EC Zn61 3/2- 89.1 s EC Ga61 (3/2-) 0.15 s EC Ge61 (3/2-) 40 ms ECp As61 Cu62 1+ 9.74 m EC Zn62 0+ 9.186 h EC Ga62 0+ 116.12 ms EC Ge62 0+ EC As62 Ni63 1/2- 100.1 y β- Zn63 3/2- 38.47 m EC Ga63 3/2-,5/2- 32.4 s EC Ge63 95 ms EC As63 Cu64 1+ 12.700 h EC,β- Ga64 0+ 2.627 m EC Ge64 0+ 63.7 s EC As64 Ni65 5/2- 2.5172 h β- Zn65 5/2- 244.26 d EC Ga65 3/2- 15.2 m EC Ge65 (3/2)- 30.9 s ECp As65 0.19 s EC Se65 ECp Ni66 0+ 54.6 h β- Cu66 1+ 5.088 m β- Ga66 0+ 9.49 h EC Ge66 0+ 2.26 h EC As66 95.77 ms EC Se66 0+ Ni67 (1/2-) 21 s β- Cu67 3/2- 61.83 h β- Ga67 3/2- 3.2612 d EC Ge67 1/2- 18.9 m EC As67 (5/2-) 42.5 s EC Se67 60 ms ECp Br67 Ni68 0+ 19 s β- Cu68 1+ 31.1 s β- * Ga68 1+ 67.629 m EC Ge68 0+ 270.8 d EC As68 3+ 151.6 s EC Se68 0+ 35.5 s EC Br68 Ni69 11.4 s β- Cu69 3/2- 2.85 m β- Zn69 1/2- 56.4 m β- * Ge69 5/2- 39.05 h EC As69 5/2- 15.2 m EC Se69 (3/2-) 27.4 s ECp Br69 Kr69 Ni70 0+ Cu70 (1+) 4.5 s β- * Ga70 1+ 21.14 m EC,β- As70 4(+) 52.6 m EC Se70 0+ 41.1 m EC Br70 79.1 ms EC * Kr70 0+ Ni71 1.86 s β- Cu71 (3/2-) 19.5 s β- Zn71 1/2- 2.45 m β- * Ge71 1/2- 11.43 d EC * As71 5/2- 65.28 h EC Se71 3/2-,5/2- 4.74 m EC Br71 5/2- 21.4 s EC Kr71 64 ms ECp Rb71 Ni72 0+ 2.1 s β- Cu72 (1+) 6.6 s β- Zn72 0+ 46.5 h β- Ga72 3- 14.10 h β- * As72 2- 26.0 h EC Se72 0+ 8.40 d EC Br72 3+ 78.6 s EC * Kr72 0+ 17.2 s EC Rb72 Ni73 0.90 s β- Cu73 3.9 s β- Zn73 (1/2)- 23.5 s β- * Ga73 3/2- 4.86 h β- * As73 3/2- 80.30 d EC Se73 9/2+ 7.15 h EC * Br73 1/2- 3.4 m EC Kr73 5/2- 27.0 s ECp Rb73 Sr73 ECp Ni74 0+ 1.1 s β- Cu74 (1+,3+) 1.594 s β- Zn74 0+ 95.6 s β- Ga74 (3-) 8.12 m β- * As74 2- 17.77 d EC,β- Br74 (0-) 25.4 m EC * Kr74 0+ 11.50 m EC Rb74 (0+) 64.9 ms EC Sr74 0+ Ni75 Cu75 1.224 s β-n Zn75 (7/2+) 10.2 s Ga75 3/2- 126 s β- Ge75 1/2- 82.78 m β- * * Se75 5/2+ 119.779 d EC Br75 3/2- 96.7 m EC Kr75 (5/2)+ 4.3 m EC Rb75 (3/2-,5/2-) 19.0 s EC Sr75 71 ms ECp Ni76 0+ Cu76 0.641 s β-n * Zn76 0+ 5.7 s β- Ga76 (2+,3+) 32.6 s β- As76 2- 1.0778 d β- Br76 1- 16.2 h EC * Kr76 0+ 14.8 h EC Rb76 1(-) 36.5 s EC Sr76 0+ 8.9 s EC Ni77 Cu77 469 ms β-n Zn77 (7/2+) 2.08 s β- * Ga77 (3/2-) 13.2 s β- Ge77 7/2+ 11.30 h β- * As77 3/2- 38.83 h β- * Br77 3/2- 57.036 h EC * Kr77 5/2+ 74.4 m EC Rb77 3/2- 3.75 m EC Sr77 (5/2+,7/2+) 9.0 s ECp Y77 Ni78 0+ Cu78 342 ms β- Zn78 0+ 1.47 s β- Ga78 (3+) 5.09 s β- Ge78 0+ 88.0 m β- As78 2- 90.7 m β- Br78 1+ 6.46 m EC,β- Rb78 0(+) 17.66 m EC * Sr78 0+ 2.5 m EC Y78 Cu79 188 ms β-n Zn79 (9/2+) 995 ms β-n Ga79 (3/2-) 2.847 s β-n Ge79 (1/2)- 18.98 s β- * As79 3/2- 9.01 m β- Se79 7/2+ 1.13E6 y β- * * Kr79 1/2- 35.04 h EC * Rb79 5/2+ 22.9 m EC Sr79 3/2(-) 2.25 m EC Y79 (5/2+) 14.8 s ECp Zr79 Cu80 Zn80 0+ 0.545 s β-n Ga80 (3) 1.697 s β-n Ge80 0+ 29.5 s β- As80 1+ 15.2 s β- Br80 1+ 17.68 m EC,β- * Rb80 1+ 34 s EC Sr80 0+ 106.3 m EC Y80 (3,4,5) 35 s EC Zr80 0+ Zn81 0.29 s β-n Ga81 (5/2-) 1.217 s β-n Ge81 (9/2+) 7.6 s β- * As81 3/2- 33.3 s β- Se81 1/2- 18.45 m β- * Kr81 7/2+ 2.29E+5 y EC * Rb81 3/2- 4.576 h EC * Sr81 1/2- 22.3 m EC Y81 (5/2+) 70.4 s EC Zr81 15 s ECp Nb81 Zn82 0+ Ga82 (1,2,3) 0.599 s β-n Ge82 0+ 4.60 s β- As82 (1+) 19.1 s β- * Br82 5- 35.30 h β- * Rb82 1+ 1.273 m EC * Sr82 0+ 25.55 d EC Y82 1+ 9.5 s EC Zr82 0+ 32 s EC Nb82 Ga83 0.31 s β-n Ge83 (5/2+) 1.85 s β- As83 (5/2-,3/2-) 13.4 s β- Se83 9/2+ 22.3 m β- * Br83 3/2- 2.40 h β- * Rb83 5/2- 86.2 d EC Sr83 7/2+ 32.41 h EC * Y83 (9/2+) 7.08 m EC * Zr83 (1/2-) 44 s ECp Nb83 (5/2+) 4.1 s EC Mo83 Ga84 85 ms β-n Ge84 0+ 966 ms β-n As84 4.02 s β-n * Se84 0+ 3.1 m β- Br84 2- 31.80 m β- * Rb84 2- 32.77 d EC,β- * Y84 1+ 4.6 s EC * Zr84 0+ 25.9 m EC Nb84 (3+) 12 s ECp Mo84 0+ Ge85 535 ms β-n As85 (3/2-) 2.021 s β-n Se85 (5/2+) 31.7 s β- Br85 3/2- 2.90 m β- Kr85 9/2+ 10.756 y β- * Sr85 9/2+ 64.84 d EC * Y85 (1/2)- 2.68 h EC * Zr85 7/2+ 7.86 m EC * Nb85 (9/2+) 20.9 s EC Mo85 Tc85 Ge86 0+ As86 0.945 s β-n Se86 0+ 15.3 s β- Br86 (2-) 55.1 s β- Rb86 2- 18.631 d EC,β- * Y86 4- 14.74 h EC * Zr86 0+ 16.5 h EC Nb86 (5+) 88 s EC * Mo86 0+ 19.6 s EC Tc86 As87 (3/2-) 0.48 s β-n Se87 (5/2+) 5.29 s β-n Br87 3/2- 55.60 s β-n Kr87 5/2+ 76.3 m β- * Y87 1/2- 79.8 h EC * Zr87 (9/2)+ 1.68 h EC * Nb87 (9/2+) 2.6 m EC * Mo87 (7/2+) 13.4 s ECp Tc87 (9/2+) Ru87 As88 Se88 0+ 1.53 s β-n Br88 (1,2-) 16.34 s β-n Kr88 0+ 2.84 h β- Rb88 2- 17.78 m β- Y88 4- 106.65 d EC * Zr88 0+ 83.4 d EC Nb88 (8+) 14.5 m EC * Mo88 0+ 8.0 m EC Tc88 (6,7,8) 6.4 s EC * Ru88 0+ As89 Se89 (5/2+) 0.41 s β-n Br89 (3/2-,5/2-) 4.348 s β-n Kr89 (3/2+,5/2+) 3.15 m β- Rb89 3/2- 15.15 m β- Sr89 5/2+ 50.53 d β- * Zr89 9/2+ 78.41 h EC * Nb89 (9/2+) 1.9 h EC * Mo89 (9/2+) 2.04 m EC * Tc89 (9/2+) 12.8 s EC * Ru89 Rh89 Se90 Br90 1.910 s β-n Kr90 0+ 32.32 s β- Rb90 0- 158 s β- * Sr90 0+ 28.78 y β- Y90 2- 64.10 h β- * * Nb90 8+ 14.60 h EC * Mo90 0+ 5.67 h EC Tc90 1+ 8.7 s EC * Ru90 0+ 13 s EC Rh90 Se91 0.27 s β-n Br91 0.541 s β-n Kr91 (5/2+) 8.57 s β- Rb91 3/2(-) 58.4 s β- Sr91 5/2+ 9.63 h β- Y91 1/2- 58.51 d * Nb91 9/2+ 680 y