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Indium-Isotope

Liste, Daten und Eigenschaften aller bekannten natürlichen und künstlichen Isotope des Indiums sowie radioaktive Zerfallsprodukte bzw. Zwischenprodukte.



Indium Isotope

Unter Indium-Isotope werden alle Atomkerne des chemischen Elements Indium zusammengefasst; diese bestehen allesamt aus einem Atomkern mit 49 Protonen und im ungeladenen Zustand aus 49 Elektronen. Der Unterschied zwischen den einzelnen Indium-Isotopen beruht auf der Anzahl der Neutronen im Kern.

 

Natürlich auftretende Indium-Isotope

In der Natur tritt das chemische Element Indium in Form eines Isotopengemischs aus den beiden primordialen Nukliden Indium-113 und Indium-115 auf, von denen das erste Nuklid als stabil gilt und das zweite mit einer Halbwertszeit von ca. 4 × 1014 Jahren radioaktiv zerfällt.

Atommasse ArAnteilHalbwertszeitSpin
Indium
Isotopengemisch
114,818 u100 %
Isotop 113In112,904062(6) u4,281(52) %stabil9/2+
Isotop 115In114,903878773(12) u95,719(52) %4,41(25) × 1014 Jahre9/2+

 

Neben den natürlichen Isotopen des Indiums sind über 35 weitere Radionuklide sowie eine große Zahl Kernisomere bekannt. Einige der Indium-Radioisotope finden Anwendung in der Nuklearmedizin: Indium-111, Indium-113m.

 

Isotopentabelle: Indium

Isotop
Nuklid
ZANNameAtommasse
[Kernmasse]
{Massenüberschuss}
Spin I
(h/2π)
μA-Nuk
123456789
96In499647Indium-9695,95932(54) u
[95,9324411 u]
{-37,89318 MeV}
97In499748Indium-9796,94913(43) u
[96,9222511 u]
{-47,3851 MeV}
(9/2+)
98In499849Indium-9897,94214(32) u
[97,9152611 u]
{-53,89624 MeV}
99In499950Indium-9998,93411(32) u
[98,9072311 u]
{-61,37614 MeV}
100In4910051Indium-10099,93096(20) u
[99,9040811 u]
{-64,31035 MeV}
(6+)100Sn
101In4910152Indium-101100,92634(21) u
[100,8994611 u]
{-68,61385 MeV}
(9/2+)
102In4910253Indium-102101,924106(5) u
[101,8972271 u]
{-70,69481 MeV}
(6+)
103In4910354Indium-103102,919879(10) u
[102,8930001 u]
{-74,63223 MeV}
(9/2)+
103mIn4910354Indium-103m102,919879(10) u
[102,8930001 u]
{-74,63223 MeV}
(1/2-)
104In4910455Indium-104103,918215(6) u
[103,8913361 u]
{-76,18224 MeV}
(6+)+ 4,43(2)104Sn
104mIn4910455Indium-104m103,918215(6) u
[103,8913361 u]
{-76,18224 MeV}
(3+)
105In4910556Indium-105104,914502(11) u
[104,8876231 u]
{-79,64087 MeV}
9/2++5,667(5)105Sn
105mIn4910556Indium-105m104,914502(11) u
[104,8876231 u]
{-79,64087 MeV}
(1/2-)
106In4910657Indium-106105,913464(13) u
[105,8865851 u]
{-80,60776 MeV}
7+4,908(7)106Sn
106mIn4910657Indium-106m105,913464(13) u
[105,8865851 u]
{-80,60776 MeV}
(2)+
107In4910758Indium-107106,910290(12) u
[106,8834111 u]
{-83,56433 MeV}
9/2++ 5,577(8)107Sn
107mIn4910758Indium-107m106,910290(12) u
[106,8834111 u]
{-83,56433 MeV}
1/2-
108In4910859Indium-108107,909694(9) u
[107,8828151 u]
{-84,1195 MeV}
7++4,554(3)108Sn
108mIn4910859Indium-108m107,909694(9) u
[107,8828151 u]
{-84,1195 MeV}
2++4,928(5)
109In4910960Indium-109108,907150(4) u
[108,8802711 u]
{-86,48922 MeV}
9/2++ 5,530(4)109Sn
109m1In4910960Indium-109m1108,907150(4) u
[108,8802711 u]
{-86,48922 MeV}
1/2-
109m2In4910960Indium-109m2108,907150(4) u
[108,8802711 u]
{-86,48922 MeV}
19/2+
110In4911061Indium-110109,907171(12) u
[109,8802921 u]
{-86,46966 MeV}
7++ 4,706(8)110Sn
110mIn4911061Indium-110m109,907171(12) u
[109,8802921 u]
{-86,46966 MeV}
2+4,365(4)
111In4911162Indium-111110,905107(4) u
[110,8782281 u]
{-88,39226 MeV}
9/2++5,495(7)111Sn
111mIn4911162Indium-111m110,905107(4) u
[110,8782281 u]
{-88,39226 MeV}
1/2-
112In4911263Indium-112111,905539(5) u
[111,8786601 u]
{-87,98985 MeV}
1++ 2,82(3)
112mIn4911263Indium-112m111,905539(5) u
[111,8786601 u]
{-87,98985 MeV}
4++5,219(4)
112m2In4911263Indium-112m2111,905539(5) u
[111,8786601 u]
{-87,98985 MeV}
(7)+
112m3In4911263Indium-112m3111,905539(5) u
[111,8786601 u]
{-87,98985 MeV}
(8)-
113In4911364Indium-113112,904062(6) u
[112,8771831 u]
{-89,36567 MeV}
9/2++ 5,5208(4)113Cd
113Sn
113mIn4911364Indium-113m112,904062(6) u
[112,8771831 u]
{-89,36567 MeV}
1/2-- 0,21043(3)
114In4911465Indium-114113,9049164(3) u
[113,8780375 u]
{-88,5698 MeV}
1++ 2,813(14)
114m1In4911465Indium-114m1113,9049164(3) u
[113,8780375 u]
{-88,5698 MeV}
5++ 4,646(5)
114m2In4911465Indium-114m2113,9049164(3) u
[113,8780375 u]
{-88,5698 MeV}
8-
115In4911566Indium-115114,903878773(12) u
[114,8769999 u]
{-89,53635 MeV}
9/2++5,5326(4)115Cd
115mIn4911566Indium-115m114,903878773(12) u
[114,8769999 u]
{-89,53635 MeV}
1/2-- 0,24362(5)
116In4911667Indium-116115,90525999(24) u
[115,8783811 u]
{-88,24975 MeV}
1+2,7826(8)
116m1In4911667Indium-116m1115,90525999(24) u
[115,8783811 u]
{-88,24975 MeV}
5++4,428(15)
116m2In4911667Indium-116m2115,90525999(24) u
[115,8783811 u]
{-88,24975 MeV}
8-+3,210(11)
117In4911768Indium-117116,904516(5) u
[116,8776371 u]
{-88,94277 MeV}
9/2++ 5,511(4)117Cd
117mIn4911768Indium-117m116,904516(5) u
[116,8776371 u]
{-88,94277 MeV}
1/2--0,25136(4)
118In4911869Indium-118117,906357(8) u
[117,8794781 u]
{-87,22789 MeV}
1+118Cd
118m1In4911869Indium-118m1117,906357(8) u
[117,8794781 u]
{-87,22789 MeV}
5++ 4,225(9)
118m2In4911869Indium-118m2117,906357(8) u
[117,8794781 u]
{-87,22789 MeV}
8-+ 3,316(11)
119In4911970Indium-119118,905851(8) u
[118,8789721 u]
{-87,69923 MeV}
9/2++ 5,507(10)119Cd
119mIn4911970Indium-119m118,905851(8) u
[118,8789721 u]
{-87,69923 MeV}
1/2-- 0,319(5)
119m2In4911970Indium-119m2118,905851(8) u
[118,8789721 u]
{-87,69923 MeV}
(3/2)++0,53(3)
119m3In4911970Indium-119m3118,905851(8) u
[118,8789721 u]
{-87,69923 MeV}
(25/2+)
120In4912071Indium-120119,90797(4) u
[119,8810911 u]
{-85,72539 MeV}
1+120Cd
120m1In4912071Indium-120m1119,90797(4) u
[119,8810911 u]
{-85,72539 MeV}
(8-)+3,687(4)
120m2In4912071Indium-120m2119,90797(4) u
[119,8810911 u]
{-85,72539 MeV}
(5)++4,289(5)
121In4912172Indium-121120,907851(29) u
[120,8809721 u]
{-85,83624 MeV}
9/2++5,494(5)121Cd
121mIn4912172Indium-121m120,907851(29) u
[120,8809721 u]
{-85,83624 MeV}
1/2-- 0,354(4)
122In4912273Indium-122121,91028(5) u
[121,8834011 u]
{-83,57364 MeV}
1+122Cd
122m1In4912273Indium-122m1121,91028(5) u
[121,8834011 u]
{-83,57364 MeV}
5++ 4,312(5)
122m2In4912273Indium-122m2121,91028(5) u
[121,8834011 u]
{-83,57364 MeV}
(8-)+ 3,776(6)
123In4912374Indium-123122,910434(21) u
[122,8835551 u]
{-83,43019 MeV}
(9/2)++ 5,483(7)123Cd
123mIn4912374Indium-123m122,910434(21) u
[122,8835551 u]
{-83,43019 MeV}
(1/2)-- 0,399(4)
124In4912475Indium-124123,91318(3) u
[123,8863011 u]
{-80,87231 MeV}
(1)++ 4,043(11)124Cd
124mIn4912475Indium-124m123,91318(3) u
[123,8863011 u]
{-80,87231 MeV}
(8-)+ 3,882(9)
125In4912576Indium-125124,913605(29) u
[124,8867261 u]
{-80,47642 MeV}
9/2++5,494(9)125Cd
125mIn4912576Indium-125m124,913605(29) u
[124,8867261 u]
{-80,47642 MeV}
1/2(-)- 0,432(4)
125m2In4912576Indium-125m2124,913605(29) u
[124,8867261 u]
{-80,47642 MeV}
(19/2+)
125m3In4912576Indium-125m3124,913605(29) u
[124,8867261 u]
{-80,47642 MeV}
(23/2-)
126In4912677Indium-126125,916507(29) u
[125,8896281 u]
{-77,77323 MeV}
3(+)+ 4,028(11)126Cd
126mIn4912677Indium-126m125,916507(29) u
[125,8896281 u]
{-77,77323 MeV}
(8-)+ 4,055(4)
127In4912778Indium-127126,917449(23) u
[126,8905701 u]
{-76,89576 MeV}
(9/2+)+5,514(8)127Cd
127m1In4912778Indium-127m1126,917449(23) u
[126,8905701 u]
{-76,89576 MeV}
(1/2-)
127m2In4912778Indium-127m2126,917449(23) u
[126,8905701 u]
{-76,89576 MeV}
(21/2-)
128In4912879Indium-128127,92040(16) u
[127,8935211 u]
{-74,14692 MeV}
(3)+128Cd
128mIn4912879Indium-128m127,92040(16) u
[127,8935211 u]
{-74,14692 MeV}
(8-)
129In4912980Indium-129128,9218055(29) u
[128,8949266 u]
{-72,83771 MeV}
(9/2+)129Cd
129mIn4912980Indium-129m128,9218055(29) u
[128,8949266 u]
{-72,83771 MeV}
(1/2-)
129m2In4912980Indium-129m2128,9218055(29) u
[128,8949266 u]
{-72,83771 MeV}
(23/2-)
129m3In4912980Indium-129m3128,9218055(29) u
[128,8949266 u]
{-72,83771 MeV}
(17/2-)
129m4In4912980Indium-129m4128,9218055(29) u
[128,8949266 u]
{-72,83771 MeV}
(29/2+)
130In4913081Indium-130129,92498(4) u
[129,8981011 u]
{-69,88068 MeV}
1(-)130Cd
131Cd
130m1In4913081Indium-130m1129,92498(4) u
[129,8981011 u]
{-69,88068 MeV}
(10-)
130m3In4913081Indium-130m3129,924971876(41915) u
[129,898093 u]
{-69,88825 MeV}
(5+)
131In4913182Indium-131130,9269721(29) u
[130,9000932 u]
{-68,02505 MeV}
(9/2+)131Cd
132Cd
131m1In4913182Indium-131m1130,9269721(29) u
[130,9000932 u]
{-68,02505 MeV}
(1/2-)
131m2In4913182Indium-131m2130,9269721(29) u
[130,9000932 u]
{-68,02505 MeV}
(21/2+)
132In4913283Indium-132131,93300(6) u
[131,9061211 u]
{-62,4101 MeV}
(7-)132Cd
133In4913384Indium-133132,938070(220) u
[132,9111911 u]
{-57,68742 MeV}
(9/2+)
133mIn4913384Indium-133m132,938070(220) u
[132,9111911 u]
{-57,68742 MeV}
(1/2-)
134In4913485Indium-134133,94454(32) u
[133,9176611 u]
{-51,66066 MeV}
(4-7)-
135In4913586Indium-135134,95005(43) u
[134,9231711 u]
{-46,52813 MeV}
136In4913687Indium-136135,95651(43) u
[135,9296311 u]
{-40,51067 MeV}
137In4913788Indium-137136,96238(54) u
[136,9355011 u]
{-35,0428 MeV}

 

 

IsotopZerfall (radioaktiver Zerfall)AEMehr
HalbwertszeitZerfallsartAnteilEnergieInfo
1101112131415
In-96p zu 95Cd
EE, p zu 95Ag
EE/β+ zu 96Cd
?
?


In-9736(6) msβ+ zu 97Cd
β+, p zu 96Ag
98,3 %
1,7 %
13,344(581) MeV
AL
In-9832 msEE/β+ zu 98Cd?13,74(30) MeVAL
In-993,1(2) sEE/β+ zu 99Cd?8,56(30) MeVAL
In-1005,8(2) sEE/β+ zu 100Cd
ε, p zu 99Ag
98,3 %
1,7(4) %
9,88(18) MeV
AL
In-10115,1(3) sEE/β+ zu 101Cd
ε, p zu 100Ag
ca. 100 %
?
7,22(20) MeV
AL
In-10223,3(1) sEE/β+ zu 102Cd
β+, p zu 101Ag
ca. 100 %
0,0093 %
8,965(5) MeV
AL
In-10365(7) sEE/β+ zu 103Cd100 %6,019(10) MeVAL
In-103m34(2) sEE/β+ zu 103Cd
Iso zu 103In
67 %
33 %

631,7(1) keV
In-1041,80(3) MinutenEE/β+ zu 104Cd100 %7,786(6) MeVAL
In-104m15,7(5) sEE/β+ zu 104Cd
Iso zu 104In
20 %
80 %

93,48(10) keV
In-1055,07(7) MinutenEE/β+ zu 105Cd100 %4,693(10) MeVAL
In-105m48(6) sIso zu 105In100 %674,08(25) keV
In-1066,2(1) MinutenEE/β+ zu 106Cd100 %6,524(12) MeVAL
In-106m5,2(1) MinutenEE/β+ zu 106Cd100 %28,6(3) keV
In-10732,4(3) MinutenEE/β+ zu 107Cd100 %3,426(11) MeVAL
In-107m50,4(6) sIso zu 107In100 %678,5(3) keV
In-10858,0(12) MinutenEE/β+ zu 108Cd100 %5,133(9) MeVAL
In-108m39,6(7) MinutenEE/β+ zu 108Cd100 %29,75(5) keV
In-1094,159(10) StundenEE/β+ zu 109Cd100 %2,015(4) MeVAL
In-109m11,34(7) MinutenIso zu 109In100 %649,79(10) keV
In-109m2210,0(9) msIso zu 109In100 %2101,86(11) keV
In-1104,92(8) StundenEE/β+ zu 110Cd100 %3,878(11) MeVAL
In-110m69,1(5) MinutenEE/β+ zu 110Cd100 %62,08(4) keV
In-1112,8047(4) TageEE zu 111Cd100 %0,85763(17) MeV AL
In-111m7,7(2) MinutenIso zu 111In100 %536,99(7) keV
In-11214,88(15) MinutenEE/β+ zu 112Cd
β- zu 112Sn
62(4) %
38(4) %
2,585(4) MeV
0,665(4) MeV
AL
In-112m20,67(8) MinutenIso zu 112In100 %156,592(25) keV
In-112m20,69(5) μsIso zu 112In100 %350,80(5) keV
In-112m32,81(3) μsIso zu 112In100 %613,82(6) keV
In-113stabilAL
In-113m99,476(23) MinutenIso zu 113In100 %391,699(3) keV
In-11471,9(1) sEE/β+ zu 114Cd
β- zu 114Sn
0,50(15) %
99,50(15) %
1,4451(4) MeV
1,9899(3) MeV
AL
In-114m149,51(1) TageEE/β+ zu 114Cd
Iso zu 114In
3,25(24) %
96,75(24) %

190,2682(8) keV
In-114m243,1(5) msIso zu 114In100 %501,948(3) keV
In-1154,41(25) × 1014 Jahreβ- zu 115Sn100 %0,497489(10) MeVAL
In-115m4,486(4) Stundenβ- zu 115Sn
Iso zu 115In
5,0(7) %
95,0(7) %

336,244(17) keV
In-11614,10(3) sβ- zu 116Sn
EE zu 116Cd
99,977(6) %
0,023(6) %
3,27622(24) MeV
0,46273(27) MeV
AL
In-116m154,29(17) Minutenβ- zu 116Sn100 %127,267(6) keV
In-116m22,18(4) sIso zu 116In100 %289,660(6) keV
In-11743,2(3) Minutenβ- zu 117Sn100 %1,1,455(5) MeVAL
In-117m116,2(3) Minutenβ- zu 117Sn
Iso zu 117In
52,9(15) %
47,1(15) %

315,303(11) keV
In-1185,0(5) sβ- zu 118Sn100 %4,425(8) MeVAL
In-118m14,45(5) Minutenβ- zu 118Sn100 %60 keV
In-118m28,5(3) sβ- zu 118Sn
Iso zu 118In
1,4(4) %
98,6(3) %

200 keV
In-1192,4(1) Minutenβ- zu 119Sn100 %2,366(7) MeVAL
In-119m18,0(3) Minutenβ- zu 119Sn
Iso zu 119In
95,6 %
4,4 %

311,37(3)
In-119m2130(15) ns654,27(7) keV
In-119m3240(25) ns2656,9(18) keV
In-1203,08(8) sβ- zu 120Sn100 %5,370(40) MeVAL
In-120m147,3(5) sβ- zu 120Sn100 %+x keV
In-120m246,2(8) sβ- zu 120Sn100 %70(60) keV
In-12123,1(6) sβ- zu 121Sn100 %3,361(27) MeVAL
In-121m3,88(10) Minutenβ- zu 121Sn
Iso zu 121In
98,8(2) %
1,2(2) %

313,68(7) keV
In-1221,5(3) sβ- zu 122Sn100 %6,37(5) MeVAL
In-122m110,3(6) sβ- zu 122Sn100 %40(60) keV
In-122m210,8(4) sβ- zu 122Sn100 %290 keV
In-1236,17(5) sβ- zu 123Sn100 %4,386(20) MeVAL
In-123m47,4(4) sβ- zu 123Sn100 %327,21(4) keV
In-1243,12(9) sβ- zu 124Sn100 %7,36(3) MeVAL
In-124m3,7(2) sβ- zu 124Sn100 %36,53(4) keV
In-1252,36(4) sβ- zu 125Sn100 %5,420(27) MeVAL
In-125m12,2(2) sβ- zu 125Sn100 %360,12(9) keV
In-125m29,4(6) μs2009,4(7) keV
In-125m35,0(15) msIso zu 125In100 %2161,2(9) keV
In-1261,53(1) sβ- zu 126Sn100 %8,242(27) MeVAL
In-126m1,64(5) sβ- zu 126Sn100 %102(64) keV
In-1271,09(1) sβ- zu 127Sn
β-, n zu 126Sn
≥ 99,97 %
≤ 0,03 %
6,575(19) MeV
1,048(24) MeV
AL
In-127m13,67(4) sβ- zu 127Sn
β-, n zu 126Sn
99,31 %
0,69(4) %

408,9(3) keV
In-127m21,04(10) sβ- zu 127Sn100 %1863(58) keV
In-1280,84(6) sβ- zu 128Sn
β-, n zu 127Sn
> 99,954 %
< 0,046 %
9,22(15) MeV
1,125(15) MeV
AL
In-128m0,72(10) sβ- zu 128Sn
β-, n zu 127Sn
> 99,954 %
< 0,046 %

340(60) keVAL
In-129611(5) msβ- zu 129Sn
β-, n zu 128Sn
99,75(5) %7
0,23(7) %
7,753(17) MeV
2,453(18) MeV
AL
In-129m1,23(3) sβ- zu 129Sn
β-, n zu 128Sn
Iso zu 129In
96,37 %
3,6(4) %
< 0,3 %


459(5) keV
In-129m20,67(10) sβ- zu 129Sn
Iso zu 129In
ca. 100 %
?

1630(56) keV
In-129m38,7(7) μsIso zu 129In100 %1687,97(25) keV
In-129m4110(15) msIso zu 129In
β- zu 129Sn
ca. 100 %
?

1911(56) keV
In-1300,29(2) sβ- zu 130Sn
β-, n zu 129Sn
99,07 %
0,93(13) %
10.25(4) MeV
2,64(4) MeV
AL
In-130m10,54(1) sβ- zu 130Sn
β-, n zu 129Sn
98,35 %
1,65 %

50(50) keV
In-130m30,54(1) sβ- zu 130Sn
β-, n zu 129Sn
98,35 %
1,65 %

400(60) keVAL
In-1310,28(3) sβ- zu 131Sn
β-, n zu 130Sn
98,0(3) %
2,0(3) %
9,24(5) MeV
4,036(3) MeV
AL
In-131m10,35(5) sβ- zu 131Sn
β-, n zu 130Sn
Iso zu 131In
≥ 99,982 %
≤ 2,0(3) %
≤ 0,018 %


302(32) keV
In-131m20,32(6) sβ- zu 131Sn
β-, n zu 130Sn
Iso zu 131In
> 99 %
ca. 0,03 %
< 1 %


3764(88) keV
In-132200(2) msβ- zu 132Sn
β-, n zu 131Sn
93,7(9) %
6,3(9) %
14,13(6) MeV
6,78(6) MeV
AL
In-133165(3) msβ- zu 133Sn
β-, n zu 132Sn
15(10) %
85(10) %
13,180(200) MeV
10,785(200) MeV
AL
In-133m180(15) msβ- ?
β-, n ?
Iso ?




330(40) keV
In-134140(4) msβ- zu 134Sb
β-, n zu 133Sn
25 %
65 %

AL
In-135101(5) msβ- zu 135Sn
β-, n zu 134Sn
β-, 2n zu 133Sn
< 100 %
> 0 %
?
14,1(4) MeV
11,83(40) MeV
AL
In-13685 msβ- zu 136Sn
β-, n zu 135Sn
β-, 2n zu 134Sn
100 %
?
?
15,39(50) MeV
12,05(40) MeV
In-13765 msβ- zu 137Sn
β-, n zu 136Sn
β-, 2n zu 135Sn
100 %
?
?
14,75(64) MeV
12,79(58) MeV

 

Erläuterungen zu den einzelnen Spalten:

1 - Symbol mit Nukleonenzahl.
2 - Z = Anzahl der Protonen (Ordnungszahl).
3 - Massenzahl A.
4 - N = Anzahl der Neutronen.
5 - Bezeichnung des Indium-Isotops; gegebenenfalls Trivialnamen.
6 - Relative Atommasse des Indium-Isotops (Isotopenmasse inklusive Elektronen) und in eckigen Klammern die Masse des Atomkerns (Kernmasse, Nuklidmasse ohne Elektronen), jeweils bezogen auf 12C = 12,00000 [2]. Zusätzlich ist der Massenüberschuss (Massenexzess) in MeV angegeben.
7 - Kernspin I, Einheit: h/2π.
8 - Kernmagnetisches Moment μmag.
9 - Ausgangsnuklide: Mögliche, angenommene oder tatsächliche Ausgangs-Nuklide (Mutternuklide, Elternnuklide). Die entsprechenden Zerfalls-Modi sind gegebenenfalls bei den Daten des jeweiligen Ausgangsnuklids zu finden.
10 - Zerfall: Halbwertszeiten des Indium-Isotops mit a = Jahre; ; d = Tage; h = Stunden; min = Minuten; s = Sekunden.
11 - Zerfall: Zerfallsart in die jeweiligen Tochternuklide mit n = Neutronenemission; p = Protonenemission; α = Alpha-Zerfall; ß- = Beta-Minus-Zerfall unter Elektronenemission; EE = Elektroneneinfang; ß+ = Positronenemission; ε = ß+ und/oder EE; Iso = Isomerieübergang; CZ = Cluster-Zerfall; SZ = Spontanzerfall.
12 - Zerfall: Zerfallsanteil in Prozent (%).
13 - Zerfall: Zerfallsenergie; Partikelenergie bezogen auf Zerfallsart.
14 - AE = Anregungsenergie für metastabile Kerne.
15 - Sonstige Informationen und Hinweise: AL = Weitere Niveaus, so genannte Adopted Levels (Verlinkung auf externe Daten [1]).

Sonstige:

()- Eingeklammerte Ziffern: Unsicherheit zur Darstellung der Streubreite des angegebenen Wertes.
~ - Theoretische Werte oder systematische Trends.
  - ungelistet-: Nuklide, die in der Literatur bereits erwänhnt wurden, aber aus irgendwelchen Gründen in den aktuellen Nuklidtabellen nicht mehr zu finden sind, weil sich deren Entdeckung z. B. nicht bestätigt hat.

 

NMR-aktive Indium-Nuklide

Nuklid
Anteil
Spin I
Kernmagnetisches
Moment
μ/μN
Gyromagnetisches
Verhältnis
107 rad T-1 s-1
Quadrupol-
Moment
Q [barn]
Resonanz-
Frequenz
v0 bei 1 T
Relative
Empfindlichkeit
H0 = const.
v0 = const. *
113In
4,281(52) %
9/2+
+ 5,5208(4)5,8845+ 0,761(5)9,36550,35121
7,2589
115In
95,719(52) %
9/2+
+5,5326(4)5,8971+ 0,772(5)9,38560,35348
7,2745

*) bezogen auf 1H = 1,000

 

Strahlenschutz

Für den Umgang mit den Indium-Radionukliden gelten gemäß Strahlenschutzverordnung (StrlSchV 2018) unter anderem folgende Werte (Spalten 1 bis 7):

NuklidFreigrenzenHRQ-SchwelleOFKTochternuklideHalbwertszeit
In-109106 Bq10 Bq/g4,2 Stunden
In-110m105 Bq10 Bg/g69,1 Minuten
In-111+106 Bq10 Bq/g0,2 TBq10 Bq cm-22,8 Tage
In-112106 Bq100 Bq/g14,7 Minuten
In-113m106 Bq100 Bq/g0,3 TBq10 Bq cm-299,5 Minuten
In-114105 Bq1000 Bq/g0,8 TBq1,2 Minuten
In-114m+106 Bq10 Bq/g0,8 TBq10 Bq cm-2In-11450,0 Tage
In-115106 Bq10 Bq/g4,4 × 1014 Jahre
In-115m106 Bq100 Bq/g0,4 TBq10 Bq cm-24,5 Stunden
In-116m105 Bq10 Bq/g54,6 Minuten
In-117106 Bq10 Bq/g43,2 Minuten
In-117m+106 Bq100 Bq/g1,9 Stunden
In-119m+105 Bq100 Bq/g18,0 Minuten

(HRQ = Hochradioaktive Quellen; OFK = Oberflächenkontamination)

 

Kernisobare Nuklide des Indiums

Zu den Indium-Nukliden isobare Atomkerne befinden sich in der jeweiligen Tabellenzeile; Z = Ordnungszahl; A = Nukleonenzahl (Massenzahl).

Z:35363738394041424344454647484950515253545556575859606162636465
ABrKrRbSrYZrNbMoTcRuRhPdAgCdInSnSbTeIXeCsBaLaCePrNdPmSmEuGdTb
9797Br97Kr97Rb97Sr97Y97Zr97Nb97Mo97Tc97Ru97Rh97Pd97Ag97Cd97In
9898Br98Kr98Rb98Sr98Y98Zr98Nb98Mo98Tc98Ru98Rh98Pd98Ag98Cd98In
9999Kr99Rb99Sr99Y99Zr99Nb99Mo99Tc99Ru99Rh99Pd99Ag99Cd99In99Sn
100100Kr100Rb100Sr100Y100Zr100Nb100Mo100Tc100Ru100Rh100Pd100Ag100Cd100In100Sn
101101Kr101Rb101Sr101Y101Zr101Nb101Mo101Tc101Ru101Rh101Pd101Ag101Cd101In101Sn
102102Rb102Sr102Y102Zr102Nb102Mo102Tc102Ru102Rh102Pd102Ag102Cd102In102Sn
103103Sr103Y103Zr103Nb103Mo103Tc103Ru103Rh103Pd103Ag103Cd103In103Sn103Sb
104104Sr104Y104Zr104Nb104Mo104Tc104Ru104Rh104Pd104Ag104Cd104In104Sn104Sb
105105Sr105Y105Zr105Nb105Mo105Tc105Ru105Rh105Pd105Ag105Cd105In105Sn105Sb105Te
106106Sr106Y106Zr106Nb106Mo106Tc106Ru106Rh106Pd106Ag106Cd106In106Sn106Sb106Te
107107Sr107Y107Zr107Nb107Mo107Tc107Ru107Rh107Pd107Ag107Cd107In107Sn107Sb107Te
108108Y108Zr108Nb108Mo108Tc108Ru108Rh108Pd108Ag108Cd108In108Sn108Sb108Te108I
109109Y109Zr109Nb109Mo109Tc109Ru109Rh109Pd109Ag109Cd109In109Sn109Sb109Te109I109Xe
110110Zr110Nb110Mo110Tc110Ru110Rh110Pd110Ag110Cd110In110Sn110Sb110Te110I110Xe
111111Zr111Nb111Mo111Tc111Ru111Rh111Pd111Ag111Cd111In111Sn111Sb111Te111I111Xe
112112Zr112Nb112Mo112Tc112Ru112Rh112Pd112Ag112Cd112In112Sn112Sb112Te112I112Xe112Cs
113113Nb113Mo113Tc113Ru113Rh113Pd113Ag113Cd113In113Sn113Sb113Te113I113Xe113Cs
114114Nb114Mo114Tc114Ru114Rh114Pd114Ag114Cd114In114Sn114Sb114Te114I114Xe114Cs114Ba
115115Nb115Mo115Tc115Ru115Rh115Pd115Ag115Cd115In115Sn115Sb115Te115I115Xe115Cs115Ba
116116Mo116Tc116Ru116Rh116Pd116Ag116Cd116In116Sn116Sb116Te116I116Xe116Cs116Ba116La
117117Mo117Tc117Ru117Rh117Pd117Ag117Cd117In117Sn117Sb117Te117I117Xe117Cs117Ba117La
118118Tc118Ru118Rh118Pd118Ag118Cd118In118Sn118Sb118Te118I118Xe118Cs118Ba118La
119119Tc119Ru119Rh119Pd119Ag119Cd119In119Sn119Sb119Te119I119Xe119Cs119Ba119La119Ce
120120Tc120Ru120Rh120Pd120Ag120Cd120In120Sn120Sb120Te120I120Xe120Cs120Ba120La120Ce
121121Ru121Rh121Pd121Ag121Cd121In121Sn121Sb121Te121I121Xe121Cs121Ba121La121Ce121Pr
122122Ru122Rh122Pd122Ag122Cd122In122Sn122Sb122Te122I122Xe122Cs122Ba122La122Ce122Pr
123123Ru123Rh123Pd123Ag123Cd123In123Sn123Sb123Te123I123Xe123Cs123Ba123La123Ce123Pr
124124Ru124Rh124Pd124Ag124Cd124In124Sn124Sb124Te124I124Xe124Cs124Ba124La124Ce124Pr124Nd
125125Rh125Pd125Ag125Cd125In125Sn125Sb125Te125I125Xe125Cs125Ba125La125Ce125Pr125Nd
126126Rh126Pd126Ag126Cd126In126Sn126Sb126Te126I126Xe126Cs126Ba126La126Ce126Pr126Nd126Pm
127127Pd127Ag127Cd127In127Sn127Sb127Te127I127Xe127Cs127Ba127La127Ce127Pr127Nd127Pm
128128Pd128Ag128Cd128In128Sn128Sb128Te128I128Xe128Cs128Ba128La128Ce128Pr128Nd128Pm128Sm
129129Ag129Cd129In129Sn129Sb129Te129I129Xe129Cs129Ba129La129Ce129Pr129Nd129Pm129Sm
130130Ag130Cd130In130Sn130Sb130Te130I130Xe130Cs130Ba130La130Ce130Pr130Nd130Pm130Sm130Eu
131131Cd131In131Sn131Sb131Te131I131Xe131Cs131Ba131La131Ce131Pr131Nd131Pm131Sm131Eu
132132Cd132In132Sn132Sb132Te132I132Xe132Cs132Ba132La132Ce132Pr132Nd132Pm132Sm132Eu
133133Cd133In133Sn133Sb133Te133I133Xe133Cs133Ba133La133Ce133Pr133Nd133Pm133Sm133Eu
134134In134Sn134Sb134Te134I134Xe134Cs134Ba134La134Ce134Pr134Nd134Pm134Sm134Eu134Gd
135135In135Sn135Sb135Te135I135Xe135Cs135Ba135La135Ce135Pr135Nd135Pm135Sm135Eu135Gd135Tb

 

Kernisotone Nuklide des Indiums

Die zu den Indium-Kernen isotonen Nuklide befinden sich in der jeweiligen Tabellenzeile; N = Anzahl der Neutronen.


484950515253545556575859606162636465666768697071727374757677787980818283848586
75Co76Co
76Ni77Ni78Ni
77Cu78Cu79Cu80Cu81Cu82Cu
78Zn79Zn80Zn81Zn82Zn83Zn84Zn
79Ga80Ga81Ga82Ga83Ga84Ga85Ga86Ga87Ga
80Ge81Ge82Ge83Ge84Ge85Ge86Ge87Ge88Ge89Ge
81As82As83As84As85As86As87As88As89As90As91As92As
82Se83Se84Se85Se86Se87Se88Se89Se90Se91Se92Se93Se94Se
83Br84Br85Br86Br87Br88Br89Br90Br91Br92Br93Br94Br95Br96Br97Br98Br
84Kr85Kr86Kr87Kr88Kr89Kr90Kr91Kr92Kr93Kr94Kr95Kr96Kr97Kr98Kr99Kr100Kr101Kr
85Rb86Rb87Rb88Rb89Rb90Rb91Rb92Rb93Rb94Rb95Rb96Rb97Rb98Rb99Rb100Rb101Rb102Rb
86Sr87Sr88Sr89Sr90Sr91Sr92Sr93Sr94Sr95Sr96Sr97Sr98Sr99Sr100Sr101Sr102Sr103Sr104Sr105Sr106Sr107Sr
87Y88Y89Y90Y91Y92Y93Y94Y95Y96Y97Y98Y99Y100Y101Y102Y103Y104Y105Y106Y107Y108Y109Y
88Zr89Zr90Zr91Zr92Zr93Zr94Zr95Zr96Zr97Zr98Zr99Zr100Zr101Zr102Zr103Zr104Zr105Zr106Zr107Zr108Zr109Zr110Zr111Zr112Zr
89Nb90Nb91Nb92Nb93Nb94Nb95Nb96Nb97Nb98Nb99Nb100Nb101Nb102Nb103Nb104Nb105Nb106Nb107Nb108Nb109Nb110Nb111Nb112Nb113Nb114Nb115Nb
90Mo91Mo92Mo93Mo94Mo95Mo96Mo97Mo98Mo99Mo100Mo101Mo102Mo103Mo104Mo105Mo106Mo107Mo108Mo109Mo110Mo111Mo112Mo113Mo114Mo115Mo116Mo117Mo
91Tc92Tc93Tc94Tc95Tc96Tc97Tc98Tc99Tc100Tc101Tc102Tc103Tc104Tc105Tc106Tc107Tc108Tc109Tc110Tc111Tc112Tc113Tc114Tc115Tc116Tc117Tc118Tc119Tc120Tc
92Ru93Ru94Ru95Ru96Ru97Ru98Ru99Ru100Ru101Ru102Ru103Ru104Ru105Ru106Ru107Ru108Ru109Ru110Ru111Ru112Ru113Ru114Ru115Ru116Ru117Ru118Ru119Ru120Ru121Ru122Ru123Ru124Ru
93Rh94Rh95Rh96Rh97Rh98Rh99Rh100Rh101Rh102Rh103Rh104Rh105Rh106Rh107Rh108Rh109Rh110Rh111Rh112Rh113Rh114Rh115Rh116Rh117Rh118Rh119Rh120Rh121Rh122Rh123Rh124Rh125Rh126Rh
94Pd95Pd96Pd97Pd98Pd99Pd100Pd101Pd102Pd103Pd104Pd105Pd106Pd107Pd108Pd109Pd110Pd111Pd112Pd113Pd114Pd115Pd116Pd117Pd118Pd119Pd120Pd121Pd122Pd123Pd124Pd125Pd126Pd127Pd128Pd
95Ag96Ag97Ag98Ag99Ag100Ag101Ag102Ag103Ag104Ag105Ag106Ag107Ag108Ag109Ag110Ag111Ag112Ag113Ag114Ag115Ag116Ag117Ag118Ag119Ag120Ag121Ag122Ag123Ag124Ag125Ag126Ag127Ag128Ag129Ag130Ag
96Cd97Cd98Cd99Cd100Cd101Cd102Cd103Cd104Cd105Cd106Cd107Cd108Cd109Cd110Cd111Cd112Cd113Cd114Cd115Cd116Cd117Cd118Cd119Cd120Cd121Cd122Cd123Cd124Cd125Cd126Cd127Cd128Cd129Cd130Cd131Cd132Cd133Cd
97In98In99In100In101In102In103In104In105In106In107In108In109In110In111In112In113In114In115In116In117In118In119In120In121In122In123In124In125In126In127In128In129In130In131In132In133In134In135In
99Sn100Sn101Sn102Sn103Sn104Sn105Sn106Sn107Sn108Sn109Sn110Sn111Sn112Sn113Sn114Sn115Sn116Sn117Sn118Sn119Sn120Sn121Sn122Sn123Sn124Sn125Sn126Sn127Sn128Sn129Sn130Sn131Sn132Sn133Sn134Sn135Sn136Sn
103Sb104Sb105Sb106Sb107Sb108Sb109Sb110Sb111Sb112Sb113Sb114Sb115Sb116Sb117Sb118Sb119Sb120Sb121Sb122Sb123Sb124Sb125Sb126Sb127Sb128Sb129Sb130Sb131Sb132Sb133Sb134Sb135Sb136Sb137Sb
105Te106Te107Te108Te109Te110Te111Te112Te113Te114Te115Te116Te117Te118Te119Te120Te121Te122Te123Te124Te125Te126Te127Te128Te129Te130Te131Te132Te133Te134Te135Te136Te137Te138Te
108I109I110I111I112I113I114I115I116I117I118I119I120I121I122I123I124I125I126I127I128I129I130I131I132I133I134I135I136I137I138I139I
109Xe110Xe111Xe112Xe113Xe114Xe115Xe116Xe117Xe118Xe119Xe120Xe121Xe122Xe123Xe124Xe125Xe126Xe127Xe128Xe129Xe130Xe131Xe132Xe133Xe134Xe135Xe136Xe137Xe138Xe139Xe140Xe
112Cs113Cs114Cs115Cs116Cs117Cs118Cs119Cs120Cs121Cs122Cs123Cs124Cs125Cs126Cs127Cs128Cs129Cs130Cs131Cs132Cs133Cs134Cs135Cs136Cs137Cs138Cs139Cs140Cs141Cs
114Ba115Ba116Ba117Ba118Ba119Ba120Ba121Ba122Ba123Ba124Ba125Ba126Ba127Ba128Ba129Ba130Ba131Ba132Ba133Ba134Ba135Ba136Ba137Ba138Ba139Ba140Ba141Ba142Ba
116La117La118La119La120La121La122La123La124La125La126La127La128La129La130La131La132La133La134La135La136La137La138La139La140La141La142La143La
119Ce120Ce121Ce122Ce123Ce124Ce125Ce126Ce127Ce128Ce129Ce130Ce131Ce132Ce133Ce134Ce135Ce136Ce137Ce138Ce139Ce140Ce141Ce142Ce143Ce144Ce
121Pr122Pr123Pr124Pr125Pr126Pr127Pr128Pr129Pr130Pr131Pr132Pr133Pr134Pr135Pr136Pr137Pr138Pr139Pr140Pr141Pr142Pr143Pr144Pr145Pr
124Nd125Nd126Nd127Nd128Nd129Nd130Nd131Nd132Nd133Nd134Nd135Nd136Nd137Nd138Nd139Nd140Nd141Nd142Nd143Nd144Nd145Nd146Nd
126Pm127Pm128Pm129Pm130Pm131Pm132Pm133Pm134Pm135Pm136Pm137Pm138Pm139Pm140Pm141Pm142Pm143Pm144Pm145Pm146Pm147Pm
128Sm129Sm130Sm131Sm132Sm133Sm134Sm135Sm136Sm137Sm138Sm139Sm140Sm141Sm142Sm143Sm144Sm145Sm146Sm147Sm148Sm
130Eu131Eu132Eu133Eu134Eu135Eu136Eu137Eu138Eu139Eu140Eu141Eu142Eu143Eu144Eu145Eu146Eu147Eu148Eu149Eu
134Gd135Gd136Gd137Gd138Gd139Gd140Gd141Gd142Gd143Gd144Gd145Gd146Gd147Gd148Gd149Gd150Gd
135Tb136Tb137Tb138Tb139Tb140Tb141Tb142Tb143Tb144Tb145Tb146Tb147Tb148Tb149Tb150Tb151Tb
138Dy139Dy140Dy141Dy142Dy143Dy144Dy145Dy146Dy147Dy148Dy149Dy150Dy151Dy152Dy
140Ho141Ho142Ho143Ho144Ho145Ho146Ho147Ho148Ho149Ho150Ho151Ho152Ho153Ho
143Er144Er145Er146Er147Er148Er149Er150Er151Er152Er153Er154Er
144Tm145Tm146Tm147Tm148Tm149Tm150Tm151Tm152Tm153Tm154Tm155Tm
148Yb149Yb150Yb151Yb152Yb153Yb154Yb155Yb156Yb
150Lu151Lu152Lu153Lu154Lu155Lu156Lu157Lu
153Hf154Hf155Hf156Hf157Hf158Hf
155Ta156Ta157Ta158Ta159Ta
158W159W160W
159Re160Re161Re
161Os162Os

 

Literatur und Hinweise

Eigenschaften der Indium-Isotope

[1] - NuDat: National Nuclear Data Center, Brookhaven National Laboratory, based on ENSDF and the Nuclear Wallet Cards.

[2] - G. Audi et. al.: The NUBASE evaluation of nuclear and decay properties. Nuclear Physics, (2003), DOI 10.1016/j.nuclphysa.2003.11.001.

[3] - Live Chart of Nuclides. Nuclear structure and decay data.

Indium: Kernmagnetische Eigenschaften - 113In-NMR, 115In-NMR

[4] - N. J. Stone: Table of nuclear magnetic dipole and electric quadrupole moments. Atomic Data and Nuclear Data Tables, (2005), DOI 10.1016/j.adt.2005.04.001.

[5] - Pekka Pyykkö: Year-2008 nuclear quadrupole moments. Molecular Physics, (2008), DOI 10.1080/00268970802018367.

[6] - Pekka Pyykkö: Year-2017 nuclear quadrupole moments. Molecular Physics, (2018), DOI 10.1080/00268976.2018.1426131.

[7] - N. J. Stone: Table of recommended nuclear magnetic dipole moments. IAEA, (2019).

Weitere Quellen:

[8] - Isotopenhäufigkeiten, Atommassen und Isotopenmassen: Siehe unter dem jeweiligen Stichwort.

[9] - S. Amos, J. L.Gross, M. Thoennessen:
Discovery of the calcium, indium, tin, and platinum isotopes.
In: Atomic Data and Nuclear Data Tables, (2011), DOI 10.1016/j.adt.2011.03.001.

 


Kategorie: Chemische Elemente

Letzte Änderung am 12.12.2022.


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