Liste der Isotope/Ordnungszahl 41 bis Ordnungszahl 50

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.

41 Niob

Iso­top Halbwerts­zeit Zerfallsenergie
(MeV)
Spin /
Parität
Zerfallsart(en)
(%)
NH
(%)
Masse
(u)
83Nb4,1 s7,5(5/2+)εβ+
84Nb12 s9,6 (εβ+), 3,2 (εp)3+εβ+ ≈ 100, εp = ?
85Nb20,9 s6,0(9/2+)εβ+
86Nb88 s7,98(5+)εβ+
86m1Nb56 s7,98εβ+
87Nb2,6 min5,17(9/2+)εβ+
87m1Nb3,7 min5,17(1/2−)εβ+
88Nb14,5 min7,20(8+)εβ+
88m1Nb7,8 min7,20(4−)εβ+
89Nb1,9 h4,29(9/2+)εβ+
89m1Nb1,18 h4,29(1/2)−εβ+
90Nb14,60 h6,1118+εβ+
90m1Nb18,81 s0,1254−IT
90m2Nb6,19 ms1+IT
91Nb680 a1,2539/2+εβ+
91m1Nb60,86 d0,104 (IT), 1,357 (εβ+)1/2−IT = 93, εβ+ = 7
92Nb3,47·107 a2,006 (εβ+), 0,356 (β)(7)+εβ+ ≈ 100, β < 0,05
92m1Nb10,15 d2,141(2)+εβ+
93Nbstabil SF9/2+100
93m1Nb16,13 a0,0311/2−IT
94Nb2,03·104 a2,045(6)+β
94m1Nb6,263 min0,041 (IT), 2,086 (β)3+IT = 99,50, β = 0,50
95Nb34,975 d0,9269/2+β
95m1Nb86,6 h0,236 (IT), 1,162 (β)1/2−IT = 94,4, β = 5,6
96Nb23,35 h3,1876+β
97Nb72,1 min1,9349/2+β
97m1Nb52,7 s0,7431/2−IT
98Nb2,86 s4,5861+β
98m1Nb51,3 min4,670 (β), 0,084 (IT)(5+)β = 99,9, IT < 0,2
99Nb15,0 s3,6399/2+β
99m1Nb2,6 min4,004 (β), 0,365 (IT)1/2−β = 96,2, IT < 3,8
100Nb1,5 s6,251+β
100m1Nb2,99 s6,754+, 5+β
101Nb7,1 s4,5695/2+β
102Nb1,3 s7,211+β
102m1Nb4,3 s7,21β
103Nb1,5 s5,535/2+β
104Nb4,8 s8,11 (β), 0,55 (βn)1+β ≈ 100, βn = 0,71
104m1Nb0,92 s8,325β
105Nb2,95 s6,495/2+β
106Nb1,02 s9,3β
107Nb0,33 s7,9β
108Nb193 ms2+
109Nb0,19 s9,1 (β), 5,0 (βn)β ≈ 100, βn = 31
110Nb0,17 s12,1 (β), 5,8 (βn)β ≈ 100, βn = 40

42 Molybdän

Iso­top Halbwerts­zeit Zerfallsenergie
(MeV)
Spin /
Parität
Zerfallsart(en)
(%)
NH
(%)
Masse
(u)
84Mo6,10+εβ+
85Mo
86Mo19,6 s5,30+εβ+
87Mo13,4 s6,49 (εβ+), 2,82 (β+p)(7/2+)εβ+ ≈ 100, β+p = ?
88Mo8,0 min3,720+εβ+
89Mo2,04 min5,58(9/2+)εβ+
89m1Mo190 ms0,387(1/2−)IT
90Mo5,56 h2,4890+εβ+
91Mo15,49 min4,4349/2+εβ+
91m1Mo65,0 s5,087 (εβ+), 0,653 (IT)1/2−εβ+ = 49,9, IT = 50,1
92Mostabil 0+014,84
93Mo4,0·103 a0,4055/2+ε
93m1Mo6,85 h2,83021/2+IT = 99,88, εβ+ = 0,12
94Mostabil SF0+009,25
95Mostabil SF5/2+015,92
96Mostabil SF0+016,68
97Mostabil SF5/2+009,55
98Mostabil 0+024,13
99Mo65,94 h1,3571/2+β
100Mo1,0·1019 a3,0340+009,63
101Mo14,61 min2,8241/2+β
102Mo11,3 min1,010+β
103Mo67,5 s3,75(3/2+)β
104Mo60 s2,160+β
105Mo35,6 s4,95(5/2−)β
106Mo8,4 s3,520+β
107Mo3,5 s6,16β
108Mo1,09 s4,640+β
109Mo0,53 s7,5β
110Mo0,30 s5,90+β

43 Technetium

Iso­top Halbwerts­zeit Zerfallsenergie
(MeV)
Spin /
Parität
Zerfallsart(en)
(%)
Masse
(u)
88Tc6,4 s10,1(6, 7, 8)εβ+
88m1Tc5,8 s10,1(2,3)εβ+
89Tc12,8 s7,51(9/2+)εβ+
89m1Tc12,9 s7,51(1/2−)εβ+
90Tc49,2 s9,1(8+)εβ+
90m1Tc8,7 s9,61+εβ+
91Tc3,14 min6,22(9/2)+εβ+
91m1Tc3,3 min6,57 (εβ+), 0,35 (IT)(1/2)−εβ+ ≈ 100, IT < 1
92Tc4,23 min7,87(8) +εβ+
93Tc2,75 h3,2019/2+εβ+
93m1Tc43,5 min3,593 (εβ+), 0,392 (IT)1/2−IT = 76,6, εβ+ = 23,4
93m2Tc10,2 µs2,18517/2−IT
94Tc293 min4,2567+εβ+
94m1Tc52,0 min1,730 (εβ+), 0,075 (IT)(2)+εβ+ ≈ 100, IT < 0,1
95Tc20,0 h1,6919/2+εβ+
95m1Tc61 d1,730 (εβ+), 0,039 (IT)1/2−εβ+ = 96,12, IT = 3,88
96Tc4,28 d2,9737+εβ+
96m1Tc51,5 min3,007 (εβ+), 0,034 (IT)4+IT = 98,0, εβ+ = 2,0
97Tc2,6·106 a0,3209/2+ε
97m1Tc90,1 d0,097 (IT), 0,471 (ε)1/2−IT = 100, ε < 0,34
98Tc4,2·106 a1,796(6) +β
99Tc2,111·105 a0,2949/2+β
99m1Tc6,01 h0,143 (IT), 0,437 (β)1/2−IT ≈ 100, β = 0,0037
100Tc15,8 s3,202 (β), 0,168 (ε)1+β ≈ 100, ε = 0,0018
101Tc14,22 min1,6149/2+β
102Tc5,28 s4,531+β
102m1Tc4,35 min4,53 (β), 0,0 (IT)(4, 5)β = 98, IT = 2
103Tc54,2 s2,665/2+β
104Tc18,3 min5,60(3+)β
105Tc7,6 min3,64(3/2−)β
106Tc35,6 s6,5471, 2β
107Tc21,2 s4,82β
108Tc5,17 s7,722+β
109Tc0,87 s5,99(3/2−)β
110Tc0,92 s8,81+, 2+β
111Tc0,3 s7,0β
112Tc0,28 s10,0β
113Tc0,13 s8,2β

44 Ruthenium

Iso­top Halbwerts­zeit Zerfallsenergie
(MeV)
Spin /
Parität
Zerfallsart(en)
(%)
NH
(%)
Masse
(u)
90Ru11 s5,60+εβ+
91Ru9 s7,4(9/2+)εβ+
91m1Ru7,6 s7,4 (εβ+), 4,3 (εp)(1/2−)εβ+ = ?, εp = ?, IT = ?
92Ru3,65 min4,50+εβ+
93Ru59,7 s6,34(9/2)+εβ+
93m1Ru10,8 s0,734 (IT), 7,074 (εβ+), 2,984 (εp)(1/2)−IT = 22,0, εβ+ = 78,0, εp = 0,027
94Ru51,8 min1,5930+εβ+
95Ru1,643 h2,5725/2+εβ+
96Rustabil 0+005,52
97Ru2,9 d1,1155/2+ε
98Rustabil SF0+001,88
99Rustabil SF5/2+012,7
100Rustabil SF0+012,6
101Rustabil SF5/2+017,0
102Rustabil SF0+031,6
103Ru39,26 d0,7633/2+β
103m1Ru1,69 ms0,23811/2−IT
104Rustabil 0+018,7
105Ru4,44 h1,9173/2+β
106Ru373,59 d0,0390+β
107Ru3,75 min2,94(5/2)+β
108Ru4,55 min1,360+β
109Ru34,5 s4,16(5/2+)β
110Ru14,6 s2,810+β
111Ru2,12 s5,50β
112Ru1,75 s3,670+β
113Ru0,80 s6,6β
114Ru0,53 s4,80+β
115Ru0,40 s7,6 (β), 0,7 (βn)β ≈ 100, βn = ?

45 Rhodium

Iso­top Halbwerts­zeit Zerfallsenergie
(MeV)
Spin /
Parität
Zerfallsart(en)
(%)
NH
(%)
Masse
(u)
93Rh8,19/2+εβ+
94Rh70,6 s9,6 (εβ+)(3+)εβ+ ≈ 100, εp = 1,8
94m1Rh25,8 s9,6(8+)εβ+
95Rh5,02 min5,11(9/2) +εβ+
95m1Rh1,96 min5,653 (εβ+), 0,543 (IT)(1/2)−εβ+ = 12, IT = 88
96Rh9,90 min6,4466+εβ+
96m1Rh1,51 min0,052 (IT), 6,498 (εβ+)3+IT = 60, εβ+ = 40
97Rh30,7 min3,52(9/2) +εβ+
97m1Rh46,2 min3,779 (εβ+), 0,259 (IT)(1/2)−εβ+ = 94,4, IT = 5,6
98Rh8,7 min5,057(2) +εβ+
98m1Rh3,5 min5,057 (εβ+), 0,0 (IT)(5+)εβ+ > 0, IT = ?
99Rh16,1 d2,1031/2−εβ+
99m1Rh4,7 h2,167 (εβ+), 0,064 (IT)9/2+εβ+ > 99,84, IT < 0,16
100Rh20,8 h3,6301−εβ+
100m1Rh4,6 min0,0 (IT), 3,630 (εβ+)(5+)IT ≈ 98,3, εβ+ ≈ 1,7
101Rh3,3 a0,5421/2−ε
101m1Rh4,34 d0,699 (ε), 0,157 (IT)9/2+ε = 92,8, IT = 7,2
102Rh207 d2,323 (εβ+), 1,150 (β)(1−, 2−)εβ+ = 80, β = 20
102m1Rh2,9 a2,464 (εβ+), 0,141 (IT)6(+)εβ+ = 99,767, IT = 0,233
103Rhstabil SF1/2−100
103m1Rh56,12 min0,0407/2+IT
104Rh42,3 s2,441 (β), 1,141 (εβ+)1+β = 99,55, εβ+ = 0,45
104m1Rh4,34 min0,129 (IT), 2,570 (β)5+IT = 99,87, β = 0,13
105Rh35,36 h0,5677/2+β
105m1Rh45 s0,1301/2−IT
106Rh29,80 s3,5411+β
106m1Rh131 min3,678(6)+β
107Rh21,7 min1,5117/2+β
108Rh16,8 s4,5101+β
108m1Rh6,0 min4,510(5+)β
109Rh80 s2,5917/2+β
110Rh3,2 s5,401+β
110m1Rh28,5 s5,40β
111Rh11 s3,747/2+β
112Rh2,1 s6,81+β
112m1Rh6,8 s6,8β
113Rh2,8 s4,97/2+β
114Rh1,85 s7,91+β
114m1Rh1,85 s7,9β
115Rh0,99 s6,07/2+β
116Rh0,68 s8,91+β
116m1Rh0,9 s8,95, 6, 7β
117Rh0,44 s7,07/2+β

46 Palladium

Iso­top Halbwerts­zeit Zerfallsenergie
(MeV)
Spin /
Parität
Zerfallsart(en)
(%)
NH
(%)
Masse
(u)
93Pd60 s9,5εβ+
94Pd9 s6,60+εβ+
95Pd
95m1Pd13,3 s10,2 (εβ+), 2,0 (IT), 7,1 (εp)21/2+εβ+ > 91,3, IT < 9,7, εp = 0,9
96Pd122 s3,450+εβ+
97Pd3,10 min4,80(5/2+)εβ+
98Pd17,7 min1,8730+εβ+
99Pd21,4 min3,365(5/2)+εβ+
100Pd3,63 d0,3610+ε
101Pd8,47 h1,9805/2+εβ+
102Pdstabil 0+001,02
103Pd16,991 d0,5435/2+ε
104Pdstabil SF0+011,14
105Pdstabil SF5/2+022,33
106Pdstabil SF0+027,33
107Pd6,5·106 a0,0335/2+β
107m1Pd21,3 s0,21511/2−IT
108Pdstabil SF0+026,46
109Pd13,7012 h1,1165/2+β
109m1Pd4,696 min0,18911/2−IT
110Pdstabil 0+011,72
111Pd23,4 min2,1905/2+β
111m1Pd5,5 h0,172 (IT), 2,362 (β)11/2−IT = 73, β = 27
112Pd21,03 h0,2880+β
113Pd93 s3,340(5/2+)β
113m1Pd100 s3,340β = ?
113m2Pd0,3 s0,081(9/2−)IT
114Pd2,42 min1,4510+β
115Pd25 s4,580(5/2+)β
115m1Pd50 s4,669 (β), 0,089 (IT)(11/2−)β = 92,0, IT = 8,0
116Pd11,8 s2,6100+β
117Pd4,3 s5,70(5/2+)β
117m1Pd19,1 ms0,203(11/2−)IT
118Pd1,9 s4,10+β
119Pd0,92 s6,5β
120Pd0,5 s5,00+β

47 Silber

Iso­top Halbwerts­zeit Zerfallsenergie
(MeV)
Spin /
Parität
Zerfallsart(en)
(%)
NH
(%)
Masse
(u)
94Ag10 ms0+εβ+
94m1Ag0,42 s(9+)εβ+ ≈ 100, εp = ?
95Ag2,0 sεβ+ ≈ 100, εp = ?
96Ag5,1 s11,6 (εβ+), 6,5 (εp)(8+, 9+)εβ+ ≈ 100, εp = 8,0
97Ag19 s7,0(9/2+)εβ+
98Ag46,7 s8,42(5+)εβ+
99Ag124 s5,43(9/2)+εβ+
99m1Ag10,5 s0,506(1/2−)IT
100Ag2,01 min7,050(5)+εβ+
100m1Ag2,24 min7,066 (εβ+), 0,015 (IT)(2)+εβ+ = ?, IT = ?
101Ag11,1 min4,2009/2+εβ+
101m1Ag3,10 s0,274(1/2)−IT
102Ag12,9 min5,9205+εβ+
102m1Ag7,7 min5,929 (εβ+), 0,009 (IT)2+εβ+ = 51, IT = 49
103Ag65,7 min2,6887/2+εβ+
103m1Ag5,7 s0,1341/2−IT
104Ag69,2 min4,2795+εβ+
104m1Ag33,5 min4,286 (εβ+), 0,007 (IT)2+εβ+ ≈ 100, IT < 0,07
105Ag41,29 d1,3461/2−εβ+
105m1Ag7,23 min0,025 (IT), 1,371 (εβ+)7/2+IT = 99,66, εβ+ = 0,34
106Ag23,96 min2,965 (εβ+), 0,195 (β)1+εβ+ = 99,5, β < 1
106m1Ag8,28 d3,0556+εβ+
107Agstabil SF1/2−051,839
107m1Ag44,3 s0,0937/2+IT
108Ag2,37 min1,649 (β), 1,918 (εβ+)1+β = 97,15, εβ+ = 2,85
108m1Ag418 a2,027 (εβ+), 0,109 (IT)6+εβ+ = 91,3, IT = 8,7
109Agstabil SF1/2−048,161
109m1Ag39,6 s0,0887/2+IT
110Ag24,6 s2,891 (β), 0,893 (ε)1+β = 99,70, ε = 0,30
110m1Ag249,79 d3,010 (β), 0,188 (IT)6+β = 98,64, IT = 1,36
111Ag7,45 d1,0371/2−β
111m1Ag64,8 s0,060 (IT), 1,097 (β)7/2+IT = 99,3, β = 0,7
112Ag3,130 h3,9562(−)β
113Ag5,37 h2,0161/2−β
113m1Ag68,7 s0,043 (IT), 2,059 (β)7/2+IT = 64, β = 36
114Ag4,6 s5,0801+β
114m1Ag1,50 ms(≤6+)IT
115Ag20,0 min3,1001/2−β
115m1Ag18,0 s3,141 (β), 0,041 (IT)7/2+β = 79,0, IT = 21,0
116Ag2,68 min6,160(2)−β
116m1Ag8,6 s6,242 (β), 0,082 (IT)(5+)β = 94,0, IT = 6,0
117Ag72,8 s4,160(1/2−)β
117m1Ag5,34 s4,189 (β), 0,029 (IT)(7/2+)β = 94,0, IT = 6,0
118Ag3,76 s7,060(1)−β
118m1Ag2,0 s7,188 (β), 0,128 (IT)(4)+β = 59, IT = 41
119Ag2,1 s5,35(7/2+)β
119m1Ag6,0 s5,35(1/2−)β
120Ag1,23 s8,200(3+)β
120m1Ag0,32 s8,403 (β), 0,203 (IT)(6−)β ≈ 63, IT ≈ 37
121Ag0,78 s6,40 (β), 1,35 (βn)(7/2+)β ≈ 100, βn = 0,080
122Ag0,48 s9,1 (β) 1,4 (βn)(3+)β ≈ 100, βn = ?
122m1Ag1,5 sβ
123Ag0,309 s7,4 (β), 2,5 (βn)(7/2+)β ≈ 100, βn = 55
124Ag0,172 s10,1 (β), 2,7 (βn)β ≈ 100, βn > 0,1
125Ag166 msβ ≈ 100, βn = ?
126Ag107 msβ
127Ag109 msβ
128Ag58 msβ ≈ 100, βn = ?

48 Cadmium

Iso­top Halbwerts­zeit Zerfallsenergie
(MeV)
Spin /
Parität
Zerfallsart(en)
(%)
NH
(%)
Masse
(u)
97Cd3 sεβ+ ≈ 100, εp = ?
98Cd9,2 s5,420+εβ+
99Cd16 s6,90 (εβ+), 4,15 (εp), 6,10 (εα)(5/2+)εβ+ ≈ 100, εp = 0,17, εα < 1·10−4
100Cd49,1 s3,880+εβ+
101Cd1,36 min5,48(5/2+)εβ+
102Cd5,5 min2,5870+εβ+
103Cd7,3 min4,142(5/2+)εβ+
104Cd57,7 min1,1360+εβ+
105Cd55,5 min2,7395/2+εβ+
106Cdstabil 0+001,25
107Cd6,50 h1,4175/2+εβ+
108Cdstabil 0+000,89
109Cd462,6 d0,2145/2+ε
110Cdstabil SF0+012,49
111Cdstabil SF1/2+012,80
111m1Cd48,54 min0,39611/2−IT
112Cdstabil SF0+024,13
113Cd7,7·1015 a0,3161/2+β012,22
113m1Cd14,1 a0,580 (β), 0,264 (IT)11/2−β = 99,86, IT = 0,14
114Cdstabil 0+028,73
115Cd53,46 h1,4461/2+β
115m1Cd44,6 d1,62711/2−β
116Cd(3,0±0,3)·1019 a0+007,49
117Cd2,49 h2,5171/2+β
117m1Cd3,36 h2,653(11/2)−β
118Cd50,3 min0,5200+β
119Cd2,69 min3,8003/2+β
119m1Cd2,20 min3,947(11/2−)β
120Cd50,80 s1,7600+β
121Cd13,5 s4,890(3/2+)β
121m1Cd8,3 s5,105(11/2−)β
122Cd5,24 s3,000+β
123Cd2,10 s6,120(3/2)+β
123m1Cd1,82 s6,437 (β), 0,317 (IT)(11/2−)β ≈ 100, IT = ?
124Cd1,25 s4,170+β
125Cd0,65 s7,16(3/2+)β
125m1Cd0,57 s7,209(11/2−)β
126Cd0,506 s5,490+β
127Cd0,37 s8,47(3/2+)β
128Cd0,34 s7,10+β
129Cd0,27 s(3/2+)β
130Cd0,20 s0+β ≈ 100, βn ≈ 4

49 Indium

Iso­top Halbwerts­zeit Zerfallsenergie
(MeV)
Spin /
Parität
Zerfallsart(en)
(%)
NH
(%)
Masse
(u)
100In7,0 s10,2 (εβ+), 5,3 (εp)εβ+ ≈ 100, εp > 3,9
101In15,1 s7,3 (εβ+), 2,5 (εp)εβ+ ≈ 100, εp = ?
102In22 s8,9 (εβ+)(6+)εβ+ ≈ 100, εp = 0,0093
103In65 s6,05(9/2) +εβ+
103m1In34 s(1/2−)εβ+ = 67, IT = 33
104In1,80 min7,91(6+)εβ+
104m1In15,7 s0,094 (IT), 8,003 (εβ+)(3+)IT = 80, εβ+ = 20
105In5,07 min4,849(9/2)+εβ+
105m1In48 s0,674(1/2)−IT
106In6,2 min6,5217+εβ+
106m1In5,2 min6,550(3+)εβ+
107In32,4 min3,4269/2+εβ+
107m1In50,4 s0,6781/2−IT
108In58,0 min5,1487+εβ+
108m1In39,6 min5,1782+εβ+
109In4,2 h2,0209/2+εβ+
109m1In1,34 min0,6501/2−IT
109m2In0,209 s2,102(19/2+)IT
110In4,9 h3,8787+εβ+
110m1In69,1 min3,9402+εβ+
111In2,8047 d0,8659/2+ε
111m1In7,7 min0,5371/2−IT
112In14,97 min2,586 (εβ+), 0,664 (β)1+εβ+ = 56, β = 44
112m1In20,56 min0,1574+IT
113Instabil SF9/2+004,3
113m1In1,6582 h0,3921/2−IT
114In71,9 s1,989 (β), 1,452 (εβ+)1+β = 99,50, εβ+ = 0,50
114m1In49,51 d0,190 (IT), 1,642 (εβ+)5+IT = 96,75, εβ+ = 3,25
114m2In43,1 ms0,502 (IT)8−IT
115In4,41·1014 a0,4959/2+β095,7
115m1In4,486 h0,336 (IT), 0,831 (β)1/2−IT = 95,0, β = 5,0
116In14,10 s3,274 (β), 0,470 (ε)1+β > 99,94, ε < 0,06
116m1In54,29 min3,4015+β
116m2In2,18 s0,2908−IT
117In43,2 min1,4559/2+β
117m1In116,2 min1,770 (β), 0,315 (IT)1/2−β = 52,9, IT = 47,1
118In5,0 s4,4231+β
118m1In4,45 min4,4835+β
118m2In8,5 s0,200 (IT), 4,623 (β)8−IT = 98,6, β = 1,4
119In2,4 min2,3649/2+β
119m1In18,0 min2,675 (β), 0,311 (IT)1/2−β = 94,4, IT = 5,6
120In3,08 s5,3701+β
120m1In46,2 s5,370(3, 4, 5)+β
120m2In47,3 s5,370(8−)β
121In23,1 s3,3609/2+β
121m1In3,88 min3,674 (β), 0,314 (IT)1/2−β = 98,8, IT = 1,2
122In1,5 s6,3701+β
122m1In10,3 s6,3705+β
122m2In10,8 s6,3708−β
123In5,98 s4,3919/2+β
123m1In47,8 s4,7181/2−β
124In3,11 s7,363+β
124m1In3,7 s7,41(8−)β
125In2,36 s5,429/2(+)β
125m1In12,2 s5,781/2(−)β
126In1,60 s8,213(+)β
126m1In1,64 s8,3217−,8−,9−β
127In1,09 s6,51 (β), 0,95 (βn)(9/2+)β ≈ 100, βn < 0,03
127m1In3,67 s6,972 (β), 1,421 (βn)(1/2−)β ≈ 100, βn = 0,69
128In0,84 s8,90 (β), 1,08 (βn)(3+)β ≈ 100, βn < 0,04
128m1In0,72 s9,30 (β), 1,40 (βn)(8−)β ≈ 100, βn < 0,04
129In0,61 s7,66 (β), 2,29 (βn)(9/2+)β ≈ 100, βn = 0,25
129m1In1,23 s8,04 (β), 2,67 (βn), 0,38 (IT)(1/2−)β > 99,7, βn = 2,5, IT < 0,3
130In0,32 s10,25 (β), 2,57 (βn)1(−)β ≈ 100, βn = 0,90
130m1In0,55 s10,30 (β), 2,62 (βn)(10−)β ≈ 100, βn < 1,67
130m2In0,55 s10,65 (β), 2,97 (βn)(5+)β ≈ 100, βn < 1,67
131In0,282 s9,18 (β), 3,97 (βn)(9/2+)β ≈ 100, βn < 2,2
131m1In0,35 s9,543 (β), 4,333 (βn), 0,636 (IT)(1/2−)β ≈ 100, βn < 2,2, IT < 0,04
131m2In0,32 s13,45 (β), 8,24 (βn), 4,27 (IT)(21/2+)β ≈ 100, βn < 2,2
132In0,201 s13,6 (β), 6,3 (βn)(7−)β ≈ 100, βn = 6,2
133In180 ms13,5 (β), 11,1 (βn)(9/2+)β ≈ 100, βn = 85
134In138 msβ ≈ 100, βn = 65

50 Zinn

Iso­top Halbwerts­zeit Zerfallsenergie
(MeV)
Spin /
Parität
Zerfallsart(en)
(%)
NH
(%)
Masse
(u)
100Sn(1,16±0,2) s7,27 (εβ+), 5,70 (εp)0+εβ+ ≈ 100, εp < 17
101Sn3 s8,8 (εβ+), 7,5 (εp)εβ+ ≈ 100, εp = ?
102Sn4,5 s5,40+εβ+
103Sn7 s7,7εβ+
104Sn20,8 s4,520+εβ+
105Sn31 s6,25 (εβ+), 3,45 (β+p)εβ+ ≈ 100, β+p = ?
106Sn115 s3,180+εβ+
107Sn2,90 min5,01(5/2+)εβ+
108Sn10,30 min2,0920+εβ+
109Sn18,0 min3,8505/2(+)εβ+
110Sn4,11 h0,6380+ε
111Sn35,3 min2,4457/2+εβ+
112Snstabil 0+000,97
113Sn115,09 d1,0361/2+εβ+
113m1Sn21,4 min0,077 (IT), 1,113 (εβ+)7/2+IT = 91,1, εβ+ = 8,9
114Snstabil SF0+000,65
114m1Sn3,26 µs0,6137/2+IT
114m2Sn159 µs0,71311/2+IT
115Snstabil SF1/2+000,34
116Snstabil SF0+014,53
117Snstabil1/2+007,68
117m1Sn13,60 d0,31511/2−IT
118Snstabil SF0+024,23
119Snstabil SF1/2+008,59
119m1Sn293,1 d0,09011/2−IT
120Snstabil SF0+032,59
121Sn27,06 h0,3883/2+β
121m1Sn44 a0,006 (IT), 0,394 (β)11/2−IT = 77,6, β = 22,4
122Snstabil 0+004,63
123Sn129,2 d1,40411/2−β
123m1Sn40,06 min1,4293/2+β
124Snstabil 0+005,79
124m1Sn45 µs2,65710+IT
125Sn9,64 d2,36411/2−β
125m1Sn9,52 min2,3643/2+β
126Sn1·105 a0,3800+β
127Sn2,10 h3,201(11/2−)β
127m1Sn4,13 min3,206(3/2+)β
128Sn59,07 min1,2740+β
128m1Sn6,5 s2,092(7−)IT
129Sn2,23 min4,000(3/2+)β
129m1Sn6,9 min4,035 (β), 0,035 (IT)(11/2−)β ≈ 100, IT ≈ 2·10−4
130Sn3,72 min2,1500+β
130m1Sn1,7 min4,097(7−)β
131Sn56,0 s4,638(3/2+)β
131m1Sn58,4 s4,880 (β), 0,242 (IT)(11/2−)β ≈ 100, IT < 0,009
132Sn39,7 s3,300+β
133Sn1,45 s7,99 (β), 0,69 (βn)(7/2−)β ≈ 100, βn = 0,08
134Sn1,12 s6,8 (β), 3,7 (βn)0+β ≈ 100, βn = 17

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