Liste der Isotope/Ordnungszahl 21 bis Ordnungszahl 30

Liste der Isotope ist die Übersichtsseite, um komfortabel auf alle Elemente zugreifen zu können. Dort wird auch der Aufbau erklärt und die Legende zur Tabelle ist auch dort zu finden. Zerfallsenergien wurden mit den angegebenen Massen und dem Masse-Energie-Äquivalent von neu berechnet.

21 Scandium

Iso­top Halbwerts­zeit Zerfallsenergie
(MeV)
Spin /
Parität
Zerfallsart(en)
(%)
NH
(%)
Masse
(u)
36Sc3,274p36,016 48(32#)
37Sc2,646p37,003 74(32#)
38Sc1,301p37,995 12(21#)
39Sc< 300 ns0,596857/2−p38,984 785(26)
40Sc182,3 ms14,323 (ε), 7,283 (εp), 5,995 (εα)4−ε = 99,54, εp = 0,02, εα = 0,4439,977 9673(30)
41Sc596,3 ms6,4967/2−ε40,969 251 105(88)
42Sc681,3 ms6,4260+ε41,965 516 53(18)
42m1Sc61,7 s7,0437+ε41,966 178 31
43Sc3,891 h2,2217/2−ε42,961 1505(20)
43m1Sc438 µs0,151572/3+IT42,961 313 22
43m2Sc470 ns3,12319/2−IT42,964 503 58
44Sc3,97 h3,6532+ε43,959 4029(19)
44m1Sc58,61 h0,27086 (IT), 3,924 (ε)6+IT = 98,8, ε = 1,243,959 693 68
44m2Sc154 ns0,067851−IT43,959 475 75
44m3Sc50,4 µs0,146160IT43,959 559 81
45Scstabil7/2−10044,955 908 28(77)
45m1Sc318 ms0,016573/2+IT44,955 926 07
46Sc83,79 d2,3674+β45,955 168 26(78)
46m1Sc18,75 s0,14591−IT45,955 324 89
46m2Sc9,4 µs0,05546+IT45,955 227 73
47Sc3,3492 d0,600737/2−β46,952 4037(21)
47m1Sc27,2 ns0,770473/2+IT46,953 230 83
48Sc43,67 h3,9886+β47,952 2236(53)
49Sc57,18 min2,0027/2−β48,950 0146(29)
50Sc102,5 s6,8835+β49,952 176(16)
50m1Sc0,35 s0,26787 (IT), 7,151 (β)3+IT = 98, β = 249,952 463 57
51Sc12,4 s6,5037/2−β50,953 592(21)
52Sc8,2 s9,3033+β51,956 88(15)
53Sc2,4 s8,7197/2−β52,959 09(29)
54Sc526 ms11,3774+β53,963 264 16
54m1Sc7 µs0,110425+IT53,963 3827
55Sc96 ms11,69 (β), 7,55 (βn)7/2−β = 83, βn = 1754,967 82(50)
56Sc26 ms14,475 (β), 8,863 (βn)7+β = ?, βn = ?55,973 45(43#)
57Sc22 ms13,162 (β), 10,428 (βn)7/2−β = ?, βn = ?56,977 77(54#)
58Sc12 ms16,236 (β), 10,922 (βn)3+β = ?, βn = ?57,984 03(64#)
59Sc10 ms15,342 (β), 12,738 (βn)β < 100, βn = ?58,988 94(64#)
60Sc3 ms18,276 (β), 13,521 (βn)β < 100, βn = ?59,995 65(75#)
61Sc> 360 ns17,279 (β), 15,188 (βn)β < 100, βn = ?61,001 00(86#)

22 Titan

Iso­top Halbwerts­zeit Zerfallsenergie
(MeV)
Spin /
Parität
Zerfallsart(en)
(%)
NH
(%)
Masse
(u)
38Ti100 ns2,53902p = 100?38,011 45(32#)
39Ti31 ms16,9683/2+εp39,002 36(22#)
40Ti52,4 ms11,1450+εp39,990 50(17)
41Ti80,4 ms11,863/2+εp40,983 148(30)
42Ti199 ms7,0170+ε41,973 049 03(30)
43Ti509 ms6,8677/2−ε42,968 5225(78)
43m1Ti12,6 µs0,3133/2+IT42,968 858 52
43m2Ti560 ns3,0669/2−IT42,971 814 42
44Ti60 a0,267390+ε43,959 689 95(75)
45Ti184,8 min2,0627/2−ε44,958 121 98(95)
46Tistabil0+008,2545,952 627 72(35)
47Tistabil5/2−007,4446,951 758 79(38)
48Tistabil0+073,7247,947 941 98(38)
49Tistabil7/2−005,4148,947 865 68(39)
50Tistabil0+005,1849,944 786 89(39)
51Ti5,76 min2,4723/2−β50,946 610 65(65)
52Ti1,7 min1,9750+β51,946 8930(76)
53Ti32,7 s5,0243/2−β52,949 73(11)
54Ti1,5 s4,2950+β53,951 05(13)
55Ti1,3 s7,483/2−β54,955 27(13)
56Ti0,2 s6,921 (β), 1,868 (βn)0+β ≈ 100, βn = 0,0655,957 91(15)
57Ti98 ms10,358 (β), 4,187 (βn)5/2−β ≈ 100, βn = 0,0456,963 64(27)
58Ti57 ms9,203 (β), 5,044 (βn)0+β = ?, βn = ?57,966 60(43#)
59Ti27,5 ms12,1845/2−β58,972 47(43#)
60Ti22,4 ms10,9170+β59,976 03(54#)
61Ti15 ms14,159 (β), 8,826 (βn)1/2−β = ?, βn = ?60,982 45(64#)
62Ti10 ms12,911 (β), 9,87 (βn)0β = ?, βn = ?61,986 51(75#)
63Ti3 ms16,171 (β), 11,583 (βn)β = ?, βn = ?62,993 75(75#)

23 Vanadium

Iso­top Halbwerts­zeit Zerfallsenergie
(MeV)
Spin /
Parität
Zerfallsart(en)
(%)
NH
(%)
Masse
(u)
40V2,399p40,012 76(43#)
41V1,756p41,000 21(32#)
42V< 55 ns0,78895p41,991 82(32#)
43V79,3 ms11,4057/2−β+42,980 766(46)
44V111 ms13,432 (ε), 8,305 (εα)2+β+ = ?, εα =  ?43,974 11(20)
44m1V150 ms12,7026+β+43,973 326 29
45V547 ms7,1297/2−β+44,965 7748(86)
46V422,5 ms7,0520+β+45,960 198 78(36)
46m1V1,02 ms0,80313+IT45,961 060 94
47V32,6 min2,9313/2−β+46,954 904 91(36)
48V15,9735 d4,01254+ε47,952 2522(11)
49V330 d0,601867/2−ε48,948 511 80(96)
50V> 2,7·1017 a2,207 (ε), 1,038 (β)6+ε = 83, β = 17000,2549,947 156 01(95)
51Vstabil7/2−099,7550,943 957 04(94)
52V3,743 min3,9753+β51,944 773 01(95)
53V1,543 min3,4367/2−β52,944 3367(34)
54V49,8 s7,0423+β53,946 439(16)
54m1V900 ns0,108755+IT53,946 555 75
55V6,54 s5,9637/2−β54,947 24(10)
56V216 ms9,154 (β), 0,90974 (βn)3+β ≈ 100, βn = 0,0655,950 48(19)
57V320 ms8,297 (β), 2,987 (βn)7/2−β ≈ 100, βn = 0,0456,952 52(24)
58V191 ms11,523 (β), 4,138 (βn)3+β = ?, βn = ?57,956 72(14)
59V97 ms10,06 (β), 5,938 (βn)7/2−β = ?, βn = ?58,959 39(17)
60V68 ms13,2553+β ≈ 100, βn = 0,0359,964 31(24)
60m1V40 ms13,9981+β59,965 107 34
61V52,6 ms11,951 (β), 7,922 (βn)3/2−β = ?, βn = ?60,967 25(96)
62V33,5 ms15,416 (β), 8,91 (βn)3+β = ?, βn = ?61,972 65(32#)
63V19,2 ms13,73 (β), 10,829 (βn)7/2−β = ?, βn = ?62,976 39(43#)
64V19 ms17,289β63,982 64(43#)
65V10 ms16,338 (β), 13,744 (βn)β = ?, βn = ?64,987 50(54#)
66V> 360 ns18,928 (β), 14,303 (βn)β = ?, βn = ?65,993 98(64#)

24 Chrom

Iso­top Halbwerts­zeit Zerfallsenergie
(MeV)
Spin /
Parität
Zerfallsart(en)
(%)
NH
(%)
Masse
(u)
42Cr13,3 ms13,861 (ε), 14,65 (εp)0+ε = 5,6, εp = 94,442,006 70(43#)
43Cr20,6 ms15,616 (ε), 15,515 (εp), 11,764 (ε2p), 10,679 (β+3p)3/2+ε = 11,82, εp = 81, ε2p = 7,1, β+3p = 0,0842,997 53(43#)
44Cr42,8 ms10,479 (ε), 8,395 (εp)0+ε = 86, εp = 1443,985 36(32#)
45Cr60,9 ms12,366 (β+), 10,745 (εp)7/2−β+ = 65,6, εp = 34,444,979 050(38)
45m1Cr1 ms11,3453/2+εp44,979 963 91
46Cr0,26 s7,6010+β+45,968 359(21)
47Cr500 ms7,4453/2−β+ = 10046,962 8974(75)
48Cr21,56 h1,6550+ε47,954 0291(79)
49Cr42,3 min2,6285/2−β+48,951 3333(25)
50Crstabil 1,1690+004,34549,946 041 83(94)
51Cr27,7025 d0,7537/2−ε50,944 765 02(94)
52Crstabil0+083,78951,940 506 23(63)
53Crstabil3/2−009,50152,940 648 15(62)
54Crstabil0+002,36553,938 879 16(61)
55Cr3,497 min2,6033/2−β54,940 838 43(64)
56Cr5,94 min1,630+β55,940 6531(20)
57Cr21,1 s4,9625/2−β56,943 6130(20)
58Cr7 s3,990+β57,944 35(22)
59Cr1,05 s7,6371/2−β58,948 59(26)
59m1Cr96 µs0,499619/2+IT58,949 126 35
60Cr0,49 s6,4680+β59,950 08(23)
61Cr243 ms9,2855/2−β60,954 42(14)
62Cr206 ms7,592 (β), 2,778 (βn)0+β = 99, βn = 161,956 10(16)
63Cr129 ms11,164 (β), 4,69 (βn)1/2−β = 98,6, βn = 1,462,961 65(49)
64Cr42 ms9,530+β63,964 08(32#)
65Cr28 ms12,9851/2−β64,969 96(32#)
66Cr23 ms12,2150+β65,973 66(54#)
67Cr50 ms14,831/2−β = 100?66,980 16(54#)
68Cr> 360 ns13,423 (β), 10,363 (βn)0β = ?, βn = ?67,984 03(75#)

25 Mangan

Iso­top Halbwerts­zeit Zerfallsenergie
(MeV)
Spin /
Parität
Zerfallsart(en)
(%)
NH
(%)
Masse
(u)
44Mn10 ns20,297 (ε), 17,286 (εp)2−ε = ?, εp = ?44,007 15(54#)
45Mn14,382 (ε), 11,695 (εp)ε = ?, εp = ?44,994 49(43#)
46Mn36,2 ms16,516 (ε), 11,635 (β+p)4+ε = 43, β+p = 5745,986 09(43#)
46m1Mn1 ms12,372 (εp), 0,73708 (IT)1−εp = ?, IT = ?45,986 881 29
47Mn88 ms11,995 (β+), 7,22 (εp)5/2−β+ > 98,3, εp < 1,746,975 775(34)
48Mn158,1 ms13,498 (β+), 5,393 (εp), 5,8 (εα)4+β+ = 99,72, εp = 0,28, εα < 6·10−447,968 52(18)
49Mn382 ms7,6965/2−β+48,959 595(11)
50Mn283,19 ms7,6350+ε49,954 237 78(95)
50m1Mn1,75 min7,8645+ε49,954 484 09
51Mn46,2 min3,2085/2−ε50,948 208 47(94)
52Mn5,591 d4,7116+ε51,945 5639(20)
52m1Mn21,1 min5,091 (ε), 0,3796 (IT)2+ε = 98,25, IT = 1,7551,945 971 42
53Mn3,74·106 a0,596857/2−ε52,941 288 89(68)
54Mn312,12 d1,377 (ε), 0,69733 (β)3+ε ≈ 100, β < 2,9·10−453,940 3576(12)
55Mnstabil5/2−10054,938 043 91(48)
56Mn2,5789 h3,6963+β55,938 903 69(49)
57Mn85,4 s2,6955/2−β56,938 2861(16)
58Mn3 s6,3271+β57,940 0666(29)
58m1Mn65,4 s6,675 (β), 0,34801 (IT)4+β ≈ 80, IT ≈ 2057,940 4402
59Mn4,59 s5,1395/2−β58,940 3911(25)
60Mn0,28 s8,4440+β59,943 1366(25)
60m1Mn1,77 s8,507 (β), 0,06202 (IT)3+β = 88,5, IT = 11,559,943 203 18
61Mn0,67 s7,1785/2−β60,944 4525(25)
62Mn671 ms10,3943+β61,947 95(16#)
62m1Mn92 ms2,886 (βn), 0,52126 (IT)1+βn = ?, IT = ?61,948 5096
63Mn0,275 s8,7495/2−β62,949 6647(40)
64Mn90 ms11,981 (βn), 4,575 (βn)3+β = 67, βn = 3363,953 8494(38)
64m1Mn0,5 ms0,548014+IT63,954 437 71
65Mn84 ms10,254 (βn), 5,931 (βn)5/2−β = 93,08, βn = 6,9264,956 0198(40)
66Mn65 ms13,318 (βn), 6,4 (βn)β = 89,12, βn = 9,8865,960 547(12)
67Mn51 ms12,672 (βn), 8,686 (βn)5/2−β < 90, βn > 1066,964 24(43#)
68Mn28 ms15,528 (βn), 9,702 (βn)β = ?, βn = ?67,969 62(54#)
69Mn18 ms14,5225/2−β68,973 66(64#)
70Mn> 360 ns17,093 (βn), 11,77 (βn)β = ?, βn = ?69,979 37(75#)
71Mn> 637 ns15,978 (βn), 13,036 (βn), 7,713 (β2n)β = ?, βn = ?, β2n = ?70,983 68(75#)

26 Eisen

Iso­top Halbwerts­zeit Zerfallsenergie
(MeV)
Spin /
Parität
Zerfallsart(en)
(%)
NH
(%)
Masse
(u)
45Fe1,89 ms1,55 (2p), 19,78 (εp), 16,771 (ε2p), 16,67 (ε3p)3/2+2p = 70, εp = 18,9, ε2p = 7,8, ε3p = 3,345,014 42(43#)
46Fe13 ms13,544 (ε), 12,813 (β+p)0+ε = 21,3, β+p = 78,746,000 63(54#)
47Fe21,9 ms14,974 (β+), 14,593 (εp), 9,711 (ε2p)7/2−β+ = ?, εp = 88,4, ε2p = ?46,991 85(54#)
48Fe45,3 ms10,908 (β+), 8,856 (β+p)0+β+ = 96,4, β+p = 3,647,980 23(43#)
49Fe64,7 ms12,886 (β+), 10,782 (β+p)7/2−β+ = 44,3, β+p = 56,748,973 429(26)
50Fe155 ms8,1390+ε49,962 975(64)
51Fe305 ms8,0415/2−ε50,956 8410(96)
52Fe8,275 h2,3750+ε51,948 1131(70)
52m1Fe45,9 s9,334 (ε), 9,959 (IT)12+ε ≈ 100, IT = 4·10−351,955 584 26
53Fe8,51 min3,7427/2−ε52,945 3064(18)
53m1Fe2,54 min3,04219/2−IT52,948 571 97
54Festabil 0,679830+005,84553,939 608 99(53)
54m1Fe36,4 ns6,25910+IT53,946 617 91
55Fe2,74 a0,231093/2−ε54,938 291 99(51)
56Festabil0+091,75455,934 936 33(49)
57Festabil1/2−002,11956,935 392 84(49)
58Festabil0+000,28257,933 274 43(53)
59Fe44,495 d1,5653/2−β58,934 874 34(54)
60Fe2,62·106 a0,2370+β59,934 0711(37)
61Fe5,98 min3,9775/2−β60,936 7462(28)
61m1Fe250 ns0,860139/2+IT60,937 669 59
62Fe68 s2,5460+β61,936 7918(30)
63Fe6,1 s6,2165/2−β62,940 2727(46)
64Fe2 s4,8220+β63,940 9878(54)
65Fe0,81 s7,9645/2+β64,945 0115(73)
65m1Fe1,12 s7,9435/2−IT64,944 989 56
66Fe440 ms6,3410+β65,946 2500(44)
67Fe0,4 s9,251/2−β66,950 54(23)
67m1Fe75 µs0,766691/2−IT66,951 363 08
68Fe180 ms8,0950+β67,952 95(39)
69Fe110 ms11,1131/2−β68,958 07(43#)
70Fe71 ms10,610+β69,961 02(54#)
71Fe28 ms13,367 (β), 7,848 (βn)7/2+β = ?, βn = ?70,966 72(64#)
72Fe> 150 ns11,681 (β), 8,193 (βn)0+β = 72,4, βn = 27,671,969 83(75#)
73Fe12,9 ms14,28 (β), 9,096 (βn), 5,608 (β2n)β = ?, βn = ?, β2n = ?72,975 72(75#)
74Fe> 638 ns13,227 (β), 9,59 (βn), 4,406 (β2n)0+β = ?, βn = ?, β2n = ?73,979 35(86#)

27 Cobalt

Iso­top Halbwerts­zeit Zerfallsenergie
(MeV)
Spin /
Parität
Zerfallsart(en)
(%)
NH
(%)
Masse
(u)
47Co1,97 (p), 14,438 (ε), 15,514 (εp)7/2−p = ?, ε = ?, εp = ?47,010 57(86#)
48Co1,169 (p), 19,282 (ε), 16,143 (εp)6+p = ?, ε = ?, εp = ?48,000 93(86#)
49Co0,7964 (p), 14,421 (ε), 11,704 (εp)7/2−p = ?, ε = ?, εp = ?48,988 91(75#)
50Co38,8 ms16,706 (ε), 12,566 (β+p)6+ε = 29,5, β+p = 70,549,980 91(64#)
51Co> 200 ns12,867/2−ε = 100?50,970 647(52)
52Co115 ms14,3426+ε51,963 51(21#)
52m1Co104 ms14,7962+ε51,963 997 62
53Co240 ms8,2887/2−ε52,954 2041(19)
53m1Co247 ms11,492 (ε), 1,589 (p)19/2−ε ≈ 98,5, p ≈ 1,552,957 643 53
54Co193,28 ms8,2450+ε53,948 459 87(54)
54m1Co1,48 min8,4427+ε53,948 671 71
55Co17,53 h3,4517/2−ε54,941 997 20(57)
56Co77,236 d4,5674+ε55,939 838 80(63)
57Co271,74 d0,836237/2−ε56,936 290 57(66)
58Co70,86 d2,3082+ε57,935 7521(13)
58m1Co9,1 h0,025535+IT57,935 779 51
58m2Co10,4 µs0,053834+IT57,935 809 89
59Costabil7/2−10058,933 194 29(56)
60Co1925,28 d2,8235+β59,933 816 30(56)
60m1Co10,467 min0,05932 (IT), 2,882 (β)2+IT = 99,76, β = 0,2459,933 879 98
61Co1,65 h1,3247/2−β60,932 476 62(95)
62Co1,5 min5,3222+β61,934 059(20)
62m1Co13,91 min5,337 (β), 0,01464 (IT)5+β = > 99, IT < 161,934 074 72
63Co27,4 s3,6617/2−β62,933 600(20)
64Co0,3 s7,3071+β63,935 811(21)
65Co1,16 s5,947/2−β = 10064,936 4621(22)
66Co0,2 s9,5983+β65,939 443(15)
66m1Co1,2 ms0,472185+IT65,939 949 91
66m2Co1 ms0,939198−IT65,940 451 26
67Co0,425 s8,4217/2−β66,940 6096(69)
68Co0,199 s11,5427−β67,944 26(16)
68m1Co1,6 s12,2633+β67,945 034 11
69Co229 ms9,8087/2−β68,946 14(20)
70Co108 ms12,2956−β69,949 63(32)
70m1Co500 ms13,7713+β69,951 214 72
71Co80 ms11,039 (β), 6,776 (βn)7/2−β = 97,39, βn = 2,6170,952 37(50)
72Co59,9 ms14,442 (β), 7,551 (βn)7−β = 95,2, βn = 4,871,957 29(43#)
73Co41 ms13,2127/2−β72,960 39(54#)
74Co25 ms15,9940+β73,965 15(64#)
75Co30 ms15,1467/2−β74,968 76(75#)
76Co21,7 ms17,512 (β), 12,077 (βn), 8,216 (β2n)β = ?, βn = ?, β2n = ?75,974 13(86#)

28 Nickel

Iso­top Halbwerts­zeit Zerfallsenergie
(MeV)
Spin /
Parität
Zerfallsart(en)
(%)
NH
(%)
Masse
(u)
48Ni2,1 ms1,3130+2p = 100?48,017 69(54#)
49Ni7,5 ms17,503 (ε), 18,299 (β+p)ε = 17, β+p = 8349,007 70(86#)
50Ni18,5 ms12,883 (ε), 12,562 (β+p)0+ε = 13,3, β+p = 86,749,994 74(86#)
51Ni23,8 ms14,404 (ε), 14,261 (εp)7/2−ε = 12,8, εp = 87,250,986 11(86#)
52Ni40,8 ms10,517 (ε), 9,44 (εp)0+ε = 68,6, εp = 31,451,974 80(75#)
53Ni55,2 ms13,028 (ε), 11,416 (εp)7/2−ε = 76,6, εp = 23,452,968 190(27)
54Ni104 ms8,7860+ε53,957 892(54)
55Ni204,7 ms8,6947/2−ε54,951 330 63(85)
56Ni6,075 d2,1330+ε55,942 128 55(57)
57Ni35,6 h3,2623/2−β+56,939 792 18(71)
58Nistabil 1,9260+068,07757,935 342 41(52)
59Ni7,6·104 a1,0733/2−ε58,934 346 20(52)
60Nistabil0+026,22359,930 785 88(52)
61Nistabil3/2−001,139960,931 055 57(52)
62Nistabil0+003,634661,928 345 37(55)
63Ni101,2 a0,066981/2−β62,929 669 63(56)
63m1Ni1,7 µs0,086915/2−IT62,929 762 94
64Nistabil0+000,925563,927 966 82(58)
65Ni2,5175 h2,1385/2−β64,930 085 17(60)
65m1Ni69 µs0,062551/2−IT64,930 152 32
66Ni54,6 h0,251760+β65,929 1393(15)
67Ni21 s3,5761/2−β66,931 5694(31)
67m1Ni13,3 µs0,0679/2+IT66,932 651 21
68Ni29 s2,1030+β67,931 8688(32)
68m1Ni0,86 ms2,855−IT67,934 9283
68m2Ni276 ns1,7710IT67,933 769 84
69Ni11,2 s5,7569/2+β68,935 6103(40)
69m1Ni3,5 s6,0791/2−IT68,935 954 93
69m2Ni439 ns2,70117/2−IT68,938 509 97
70Ni6 s3,7630+β69,936 4313(23)
70m1Ni232 ns2,9248+IT69,939 5703
71Ni2,56 s7,3059/2+β70,940 5190(24)
72Ni1,57 s5,5570+β71,941 7859(24)
73Ni0,84 s8,8797/2+β72,946 2067(26)
74Ni0,68 s7,550+β73,947 98(43#)
75Ni344 ms10,225 (β), 3,689 (βn)7/2+β = 90, βn = 1074,952 50(32#)
76Ni0,238 s9,366 (β), 4,79 (βn)0+β = ?, βn = ?75,955 33(54#)
76m1Ni509 ns2,428+IT75,957 9278
77Ni128 ms11,765 (β), 6,157 (βn)β = 70, βn = 3076,960 55(54#)
78Ni0,11 s10,368 (β), 6,311 (βn)0+β = ?, βn = ?77,963 36(86#)
79Ni43 ms14,187 (β), 8,714 (βn), 4,658 (β2n)β = ?, βn = ?, β2n = ?78,970 25(86#)

29 Kupfer

Iso­top Halbwerts­zeit Zerfallsenergie
(MeV)
Spin /
Parität
Zerfallsart(en)
(%)
NH
(%)
Masse
(u)
52Cu2,5853+p = 100?51,996 71(86#)
53Cu< 300 ns1,83 (p), 15,277 (ε), 12,347 (β+p)3/2−p = ?, ε = ?, β+p = ?52,984 59(86#)
54Cu< 75 ns0,600783+p53,976 66(54#)
55Cu27 ms13,702 (ε), 9,087 (εp)3/2−ε = 85, εp = 1554,966 04(17)
56Cu93 ms15,67 (ε), 8,503 (εp)4+ε = 99,6, εp = 0,455,958 95(21#)
57Cu196,3 ms8,7753/2−β+56,949 212 50(66)
58Cu3,204 s8,5611+ε57,944 533 05(70)
59Cu81,5 s4,7993/2−ε58,939 497 48(67)
60Cu23,7 min6,1282+ε59,937 3645(18)
61Cu3,333 h2,2383/2−ε60,933 4576(10)
62Cu9,673 min3,9591+ε61,932 595 41(75)
63Custabil3/2−069,1562,929 597 72(56)
64Cu12,701 h1,674 (ε), 0,5797 (β)1+ε = 61,5, β = 38,563,929 764 34(56)
65Custabil3/2−030,8564,927 789 70(71)
66Cu5,12 min2,6411+β65,928 869 03(72)
67Cu61,83 h0,561273/2−β66,927 7303(13)
67m1Cu100 ns3,46415/2+IT66, 931 449 48
68Cu30,9 s4,441+β67,929 6109(17)
68m1Cu3,75 min0,72163 (IT), 5,162 (β)6−IT = 84, β = 1667,930 3856
69Cu2,85 min2,6813/2−β68,929 4293(15)
69m1Cu360 ns2,74213/2+IT68, 932 372 73
70Cu44,5 s6,5881+β69,932 3921(12)
70m1Cu33 s6,69 (β), 0,10146 (IT)4−β = 52, IT = 4869,932 501 02
70m2Cu6,6 s6,831 (β), 0,24295 (IT)1+β = 93,2, IT = 6,869, 932 652 92
71Cu19,4 s4,6183/2−β70,932 6768(16)
71m1Cu271 ns2,75619/2−IT70, 935 635 55
72Cu6,63 s8,3631+β = 10071,935 8203(15)
72m1Cu1,8 µs0,274−IT71, 936 110 16
73Cu4,2 s6,6063/2−β72,936 6744(21)
74Cu1,594 s9,7511+β73,939 8749(66)
75Cu1,222 s8,088 (β), 3,214 (βn)3/2−β = 96,5, βn = 3,574,941 5226(25)
76Cu637 ms11,327 (β), 3,512 (βn)3+β = 97, βn = 375,945 2750(72)
76m1Cu1,27 s11,4271+β75,945 382 37
77Cu468,1 ms10,277 (β), 5,72 (βn)3/2−β = 69,7, βn = 30,376,947 92(16#)
78Cu335 ms12,986 (β), 6,22 (βn)3+β < 35, βn > 6577,952 23(54)
79Cu188 ms11,534 (β), 7,513 (βn)3/2−β = 45, βn = 5578,955 02(43#)
80Cu0,17 s15,2183+β79,960 89(64#)
81Cu73,2 ms14,408 (β), 11,785 (βn), 5,498 (β2n)β = ?, βn = ?, β2n = ?80,965 87(86#)
82Cu> 636 ns16,935 (β), 12,456 (βn), 9,834 (β2n)β = ?, βn = ?, β2n = ?81,972 44(86#)

30 Zink

Iso­top Halbwerts­zeit Zerfallsenergie
(MeV)
Spin /
Parität
Zerfallsart(en)
(%)
NH
(%)
Masse
(u)
54Zn1,59 ms1,49102p = 9253,992 04(75#)
55Zn19,8 ms16,711 (ε), 17,012 (εp)5/2−ε = 9, εp = 9154,983 98(75#)
56Zn30 ms12,659 (ε), 12,467 (εp)0+ε = 14, εp = 8655,972 54(54#)
57Zn38 ms14,762 (β+), 14,072 (εp)7/2−β+ = 35, εp = 6556,965 06(22#)
58Zn86 ms9,369 (ε), 6,496 (β+p)0+ε = 97, β+p = 357,954 591(54)
59Zn182 ms9,143 (ε), 5,724 (εp)3/2−ε = 99,9, εp = 0,158,949 312 66(89)
60Zn2,38 min4,1710+ε59,941 842 10(69)
61Zn89,1 s5,6353/2−ε60,939 507(17)
61m1Zn400 ms0,091771/2−IT60,939 605 52
61m2Zn140 ms0,421463/2−IT60,939 959 46
61m3Zn100 ms0,759375/2−IT60,940 322 22
62Zn9,186 h1,620+ε61,934 333 97(73)
63Zn38,47 min3,3663/2−ε62,933 2115(17)
64Znstabil 1,0950+049,1763,929 142 01(71)
65Zn243,93 d1,3525/2−ε64,929 240 77(71)
65m1Zn1,6 µs0,05411/2−IT64,929 298 85
66Znstabil0+027,7365,926 033 81(94)
67Znstabil5/2−004,0466,927 127 75(96)
68Znstabil0+018,4567,924 844 55(98)
69Zn56,4 min0,910261/2−β68,926 5507(10)
69m1Zn13,76 h0,43818 (IT), 1,348 (β)9/2+IT = 99,997, β = 0,00368,927 021 11
70Znstabil 0,997120+000,6169,925 3192(21)
71Zn2,45 min2,811/2−β70,927 7196(28)
71m1Zn3,96 h2,97 (β), 0,15986 (IT)9/2+β = 99,95, IT = 0,0570,927 891 22
72Zn46,5 h0,442770+β71,926 8428(23)
73Zn23,5 s4,1061/2−β72,929 5826(20)
73m1Zn5,8 s4,527 (β), 0,42069 (IT)7/2+β = ?, IT = ?72,930 034 23
73m2Zn13 ms0,378595/2+IT72,929 989 03
74Zn95,6 s2,2930+β73,929 4073(27)
75Zn10,2 s5,9067/2+β74,932 8402(21)
76Zn5,7 s3,9940+β75,933 1150(16)
77Zn2,08 s7,2037/2+β76,936 8872(21)
77m1Zn1,05 s0,8393 (IT), 8,043 (β)1/2−IT > 50, β < 5076,937 788 22
78Zn1,47 s6,2280+β77,938 2892(21)
79Zn995 ms9,115 (β), 2,202 (βn)9/2+β = 98,7, βn = 1,378,942 6381(24)
80Zn0,54 s7,575 (β), 2,828 (βn)0+β = 99, βn = 179,944 5529(28)
81Zn304 ms11,428 (β), 4,953 (βn)5/2+β = 92,5, βn = 7,580,950 4026(54)
82Zn228 ms10,3240+β = 100?81,954 26(32#)
83Zn117 ms12,519 (β), 8,121 (βn)5/2+β = ?, βn = ?82,960 56(54#)
84Zn> 633 ns11,877 (β), 8,779 (βn), 4,381 (β2n)0+β = ?, βn = ?, β2n = ?83,965 21(64#)
85Zn> 637 ns14,224β = 100?84,972 26(75#)

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