Liste der Isotope/5. Periode

Dieser Artikel ist eine Liste der Isotope aller bekannten Elemente der fünften Periode.

Eine Übersicht über alle weiteren Isotope sowie eine Legende ist im Hauptartikel Liste der Isotope zu finden.

37 Rubidium

Isotop	Halbwertszeit	Zerfallsenergie in MeV	Spin / Parität	Zerfallsart(en)	Häufigkeit in %
⁷⁴Rb	64,9 ms	10,4	(0+)	K/β⁺ = 100
⁷⁵Rb	19,0 s	7,02	(3/2−,5/2−)	K/β⁺ = 100
⁷⁶Rb	36,5 s	8,50	1(−)	K/β⁺ = 100
⁷⁷Rb	3,77 min	5,346	3/2−	K/β⁺ = 100
⁷⁸Rb	17,66 min	7,224	0(+)	K/β⁺ = 100
^78m1Rb	5,74 min	7,327 (K/β⁺), 0,103 (IT)	4(−)	K/β⁺ = 90, IT = 10
⁷⁹Rb	22,9 min	3,649	5/2+	K/β⁺ = 100
⁸⁰Rb	34 s	5,723	1+	K/β⁺ = 100
⁸¹Rb	4,576 h	2,237	3/2−	K/β⁺ = 100
^81m1Rb	30,5 min	0,086 (IT), 2,237 (K/β⁺)	9/2+	IT = 97,6, K/β⁺ = 2,4
⁸²Rb	1,273 min	0,910	1+	K/β⁺ = 100
^82m1Rb	6,472 h	4,469 (K/β⁺), 0,069 (IT)	5−	K/β⁺ = 100, IT < 0,33
⁸³Rb	86,2 d	0,910	5/2−	K = 100
^83m1Rb	7,8 ms		9/2+	IT = ?, K/β⁺ = ?
⁸⁴Rb	32,77 d	2,681 (K/β⁺), 0,894 (β⁻)	2−	K/β⁺ = 96,2, β⁻ = 3,8
^84m1Rb	20,26 min	0,464	6−	IT = 100
⁸⁵Rb	stabil		5/2−		72,165
⁸⁶Rb	18,631 d	1,774 (β⁻), 0,519 (K/β⁺)	2−	β⁻ = 99,9948, K/β⁺ = 0,0052
^86m1Rb	1,017 min	0,556	6−	IT = 100
⁸⁷Rb	4,81 × 10¹⁰ a	0,2833	3/2−	β⁻ = 100	27,835
⁸⁸Rb	17,78 min	5,316	2−	β⁻ = 100
⁸⁹Rb	15,15 min	4,501	3/2−	β⁻ = 100
⁹⁰Rb	158 s	6,590	0−	β⁻ = 100
^90m1Rb	258 s	6,697 (β⁻) 0,107 (IT)	3−	β⁻ = 97,4, IT = 2,6
⁹¹Rb	58,4 s	5,861	3/2(−)	β⁻ = 100
⁹²Rb	4,492 s	8,105 (β⁻), 0,763 (β⁻n)	0−	β⁻ = 100, β⁻n = 0,0107
⁹³Rb	5,84 s	7,462 (β⁻), 2,178 (β⁻n)	5/2−	β⁻ = 100, β⁻n = 1,39
⁹⁴Rb	2,702 s	10,307 (β⁻), 3,560 (β⁻n)	3(−)	β⁻ = 100, β⁻n = 10,4
⁹⁵Rb	377,5 ms	9,279 (β⁻), 4,932 (β⁻n)	5/2−	β⁻ = 100, β⁻n = 8,73
⁹⁶Rb	0,199 s	11,756 (β⁻), 5,861 (β⁻n)	2+	β⁻ = 100, β⁻n = 13,8
⁹⁷Rb	169,9 ms	10,42 (β⁻), 6,54 (β⁻n)	3/2(+)	β⁻ = 100, β⁻n = 25,1
⁹⁸Rb	114 ms	12,344 (β⁻), 6,46 (β⁻n), 2,57 (β⁻2n)	(1,0)	β⁻ = 100, β⁻n = 13,6, β⁻2n = 0,051
^98m1Rb	96 ms	12,614 (β⁻), 6,73 (β⁻n)	(4,5)	β⁻ = 100
⁹⁹Rb	50,3 ms	11,25 (β⁻), 7,61 (β⁻n)	(5/2+)	β⁻ = 100, β⁻n = 20,7
¹⁰⁰Rb	51 ms	13,50 (β⁻), 7,40 (β⁻n), ? (β⁻2n)		β⁻ = 100, β⁻n = 6, β⁻2n = 0,16
¹⁰¹Rb	32 ms	11,81 (β⁻), 8,55 (β⁻n)	(3/2+)	β⁻ = 100, β⁻n = 28
¹⁰²Rb	37 ms			β⁻ = 100, β⁻n = 18

38 Strontium

Isotop	Halbwertszeit	Zerfallsenergie in MeV	Spin / Parität	Zerfallsart(en)	Häufigkeit in %
⁷⁵Sr	71 ms	10,6 (K/β⁺), 8,3 (Kp)		K/β⁺ = 100, Kp = 6,5
⁷⁶Sr	8,9 s	6,1	0+	K/β⁺ = 100
⁷⁷Sr	9,0 s	6,85 (K/β⁺), 3,71 (Kp)	5/2+	K/β⁺ = 100, Kp < 0,25
⁷⁸Sr	2,5 min	3,762	0+	K/β⁺ = 100
⁷⁹Sr	2,25 min	5,318	3/2(−)	K/β⁺ = 100
⁸⁰Sr	106,3 min	1,868	0+	K/β⁺ = 100
⁸¹Sr	22,3 min	3,930	1/2−	K/β⁺ = 100
⁸²Sr	25,55 d	0,180	0+	K = 100
⁸³Sr	32,41 h	2,276	7/2+	K/β⁺ = 100
^83m1Sr	4,95 s	0,259	1/2−	IT = 100
⁸⁴Sr	stabil		0+		0,56
⁸⁵Sr	64,84 d	1,065	9/2+	K = 100
^85m1Sr	67,63 min	0,239 (IT), 1,304 (K/β⁺)	1/2−	IT = 86,6, K/β⁺ = 13,4
⁸⁶Sr	stabil		0+		9,86
^86m1Sr	0,45 µs	2,956	8+	IT = 100
⁸⁷Sr	stabil		9/2+		7,00
^87m1Sr	2,803 h	0,389 (IT), 0,106 (K/β⁺)	1/2−	K = 0,30, IT = 99,70
⁸⁸Sr	stabil		0+		82,58
⁸⁹Sr	50,53 d	1,495	5/2+	β⁻ = 100
⁹⁰Sr	28,79 a	0,546	0+	β⁻ = 100
⁹¹Sr	9,63 h	2,699	5/2+	β⁻ = 100
⁹²Sr	2,71 h	1,911	0+	β⁻ = 100
⁹³Sr	7,423 min	4,137	5/2+	β⁻ = 100
⁹⁴Sr	75,3 s	3,511	0+	β⁻ = 100
⁹⁵Sr	23,90 s	6,080	1/2+	β⁻ = 100
⁹⁶Sr	1,07 s	5,371	0+	β⁻ = 100
⁹⁷Sr	426 ms	7,467 (β⁻), 1,488 (β⁻n)	1/2+	β⁻ = 100, β⁻n = 0,005
⁹⁸Sr	0,653 s	5,826 (β⁻), 1,580 (β⁻n)	0+	β⁻ = 100, β⁻n = 0,18
⁹⁹Sr	0,269 s	8,03 (β⁻), 2,19 (β⁻n)	3/2+	β⁻ = 100, β⁻n = 0,100
¹⁰⁰Sr	202 ms	7,08 (β⁻), 1,91 (β⁻n)	0+	β⁻ = 100, β⁻n = 0,78
¹⁰¹Sr	118 ms	8,82 (β⁻), 3,76 (β⁻n)	(5/2−)	β⁻ = 100, β⁻n = 2,37

39 Yttrium

Isotop	Halbwertszeit	Zerfallsenergie in MeV	Spin / Parität	Zerfallsart(en)	Häufigkeit in %
⁷⁷Y	63 ms	11,0		K/β⁺ = 100
⁷⁹Y	14,8 s	7,1 (K/β⁺), 1,3 (Kp)	(5/2+)	K/β⁺ = 100, Kp = ?
⁸⁰Y	35 s	9,1	(3,4,5)	K/β⁺ = 100
⁸¹Y	70,4 s	5,51	(5/2+)	K/β⁺ = 100
⁸²Y	9,5 s	7,82	1+	K/β⁺ = 100
⁸³Y	7,08 min	4,47	(9/2+)	K/β⁺ = 100
^83m1Y	2,85 min	4,532 (K/β⁺), 0,062 (IT)	(3/2−)	K/β⁺ = 60, IT = 40
⁸⁴Y	4,6 s	6,49	1+	K/β⁺ = 100
^84m1Y	39,5 min	6,49	(5−)	K/β⁺ = 100
⁸⁵Y	2,68 h	3,25	(1/2) -	K/β⁺ = 100
^85m1Y	4,86 h	3,27 (K/β⁺), 0,02 (IT)	9/2+	K/β⁺ = 100, IT < 2 × 10^-3
⁸⁶Y	14,74 h	5,24	4−	K/β⁺ = 100
^86m1Y	48 min	0,218 (IT), 5,458 (K/β⁺)	(8+)	IT = 99,31, K/β⁺ = 0,69
⁸⁷Y	79,8 h	1,862	1/2−	K/β⁺ = 100
^87m1Y	13,37 h	0,381 (IT), 2,243 (K/β⁺)	9/2+	IT = 98,43, K/β⁺ = 1,57
⁸⁸Y	106,65 d	3,623	4−	K/β⁺ = 100
^88m1Y	13,9 ms		(8) +	IT = 100
⁸⁹Y	stabil		1/2−		100
^89m1Y	16,06 s	0,909	9/2+	IT = 100
⁹⁰Y	64,00 h	2,282	2−	β⁻ = 100
^90m1Y	3,19 h	0,682 (IT), 2,964 (β⁻)	7+	IT = 99,9982, β⁻ = 0,0018
⁹¹Y	58,51 d		1/2−	β⁻ = 100
^91m1Y	49,71 min		9/2+	IT = 100, β⁻ < 1,5
⁹²Y	3,54 h	3,639	2−	β⁻ = 100
⁹³Y	10,18 h	2,893	1/2−	β⁻ = 100
^93m1Y	0,82 s	0,759	7/2+	IT = 100
⁹⁴Y	18,7 min	4,919	2−	β⁻ = 100
⁹⁵Y	10,3 min	4,420	1/2−	β⁻ = 100
⁹⁶Y	5,34 s	7,087	0−	β⁻ = 100
^96m1Y	9,6 s	7,087	(8+)	β⁻ ≈ 100
⁹⁷Y	3,75 s	6,688 (β⁻), 1,108 (β⁻n)	(1/2−)	β⁻ = 100, β⁻n = 0,055
^97m1Y	1,17 s	7,356 (β⁻), 0,668 (IT), 1,776 (β⁻n)	9/2+	β⁻>99,3, IT<0,7, β⁻n<0,08
^97m2Y	142 ms	3,523 (IT), 10,211 (β⁻)	27/2−	IT>80, β⁻<20
⁹⁸Y	0,584 s	8,830 (β⁻), 2,443 (β⁻n)	0−	β⁻ = 100, β⁻n = 0,33
^98m1Y	2 s	8,830 (β⁻), 0,0 (IT), 2,443 (β⁻n)	4, 5	β⁻ = 90, IT<20, β⁻ = 3,4
⁹⁹Y	1,470 s	7,567 (β⁻), 2,990 (β⁻n)	5/2+	β⁻ = 100, β⁻n = 1,9
¹⁰⁰Y	0,735 s	9,31 (β⁻), 2,40 (β⁻n)	1−,2−	β⁻ = 100, β⁻n = 0,92
^100m1Y	0,94 s	9,31 (β⁻)	3, 4, 5	β⁻ = 100
¹⁰¹Y	0,45 s	8,55 (β⁻), 3,62 (β⁻n)	5/2+	β⁻ = 100, β⁻n = 1,94
¹⁰²Y	0,36 s	9,85 (β⁻)	low	β⁻ = 100
^102m1Y	0,3 s	9,85 (β⁻)	high	β⁻ = 100
¹⁰³Y	0,23 s	9,6 (β⁻), 4,9 (β⁻n)	5/2+	β⁻ = 100, β⁻n = 8
¹⁰⁴Y		11,8 (β⁻)		β⁻ = 100

40 Zirconium

Isotop	Halbwertszeit	Zerfallsenergie in MeV	Spin / Parität	Zerfallsart(en)	Häufigkeit in %
⁸¹Zr	15 s	7,2 (K/β⁺), 4,2 (Kp)		K/β⁺ = 100, Kp = ?
⁸²Zr	32 s	4,0	0+	K/β⁺ = 100
⁸³Zr	44 s	5,87 (K/β⁺), 2,26 (Kp)	(1/2−)	K/β⁺ = 100, Kp = ?
⁸⁴Zr	25,9 min		0+	K/β⁺ = 100
⁸⁵Zr	7,86 min	4,69	7/2+	K/β⁺ = 100
^85m1Zr	10,9 s	4,982 (K/β⁺), 0,292 (IT)	(1/2−)	K/β⁺>8, IT < 92
⁸⁶Zr	16,5 h	1,480	0+	K/β⁺ = 100
⁸⁷Zr	1,68 h	3,665	(9/2) +	K/β⁺ = 100
^87m1Zr	14,0 s	0,336	(1/2) -	IT = 100
⁸⁸Zr	83,4 d	0,670	0+	K = 100
⁸⁹Zr	78,41 h	2,832	9/2+	K/β⁺ = 100
^89m1Zr	4,18 min	3,420 (K/β⁺), 0,588 (IT)	1/2−	K/β⁺ = 6,23, IT = 93,77
⁹⁰Zr	stabil		0+		51,45
^90m1Zr	809,2 ms	2,319	5−	IT = 100
⁹¹Zr	stabil		5/2+		11,22
⁹²Zr	stabil		0+		17,15
⁹³Zr	1,53 × 10⁶ a	0,091	5/2+	β⁻ = 100
⁹⁴Zr	stabil		0+		17,38
⁹⁵Zr	64,02 d	1,125	5/2+	β⁻ = 100
⁹⁶Zr	3,8 × 10¹⁹ a	3,350	0+	β⁻ β⁻ = 100	2,80
⁹⁷Zr	16,91 h	2,658	1/2+	β⁻ = 100
⁹⁸Zr	30,7 s	2,261	0+	β⁻ = 100
⁹⁹Zr	2,1 s	4,558	(1/2+)	β⁻ = 100
¹⁰⁰Zr	7,1 s	3,34	0+	β⁻ = 100
¹⁰¹Zr	2,3 s	5,49	(3/2+)	β⁻ = 100
¹⁰²Zr	2,9 s	4,61	0+	β⁻ = 100
¹⁰³Zr	1,3 s	6,95	(5/2−)	β⁻ = 100
¹⁰⁴Zr	1,2 s	5,9	0+	β⁻ = 100
¹⁰⁵Zr	0,6 s	8,5	0+	β⁻ = 100

41 Niob

Isotop	Halbwertszeit	Zerfallsenergie in MeV	Spin / Parität	Zerfallsart(en)	Häufigkeit in %
⁸³Nb	4,1 s	7,5	(5/2+)	K/β⁺ = 100
⁸⁴Nb	12 s	9,6 (K/β⁺), 3,2 (Kp)	3+	K/β⁺ = 100, Kp = ?
⁸⁵Nb	20,9 s	6,0	(9/2+)	K/β⁺ = 100
⁸⁶Nb	88 s	7,98	(5+)	K/β⁺ = 100
^86m1Nb	56 s	7,98		K/β⁺ = 100
⁸⁷Nb	2,6 min	5,17	(9/2+)	K/β⁺ = 100
^87m1Nb	3,7 min	5,17	(1/2−)	K/β⁺ = 100
⁸⁸Nb	14,5 min	7,20	(8+)	K/β⁺ = 100
^88m1Nb	7,8 min	7,20	(4−)	K/β⁺ = 100
⁸⁹Nb	1,9 h	4,29	(9/2+)	K/β⁺ = 100
^89m1Nb	1,18 h	4,29	(1/2) -	K/β⁺ = 100
⁹⁰Nb	14,60 h	6,111	8+	K/β⁺ = 100
^90m1Nb	18,81 s	0,125	4−	IT = 100
^90m2Nb	6,19 ms		1+	IT = 100
⁹¹Nb	680 a	1,253	9/2+	K/β⁺ = 100
^91m1Nb	60,86 d	0,104 (IT), 1,357 (K/β⁺)	1/2−	IT = 93, K/β⁺ = 7
⁹²Nb	3,47 × 10⁷ a	2,006 (K/β⁺), 0,356 (β⁻)	(7) +	K/β⁺ = 100, β⁻ < 0,05
^92m1Nb	10,15 d	2,141	(2) +	K/β⁺ = 100
⁹³Nb	stabil		9/2+		100
^93m1Nb	16,13 a	0,031	1/2−	IT = 100
⁹⁴Nb	2,03 × 10⁴ a	2,045	(6) +	β⁻ = 100
^94m1Nb	6,263 min	0,041 (IT), 2,086 (β⁻)	3+	IT = 99,50, β⁻ = 0,50
⁹⁵Nb	34,975 d	0,926	9/2+	β⁻ = 100
^95m1Nb	86,6 h	0,236 (IT), 1,162 (β⁻)	1/2−	IT = 94,4, β⁻ = 5,6
⁹⁶Nb	23,35 h	3,187	6+	β⁻ = 100
⁹⁷Nb	72,1 min	1,934	9/2+	β⁻ = 100
^97m1Nb	52,7 s	0,743	1/2−	IT = 100
⁹⁸Nb	2,86 s	4,586	1+	β⁻ = 100
^98m1Nb	51,3 min	4,670 (β⁻), 0,084 (IT)	(5+)	β⁻ = 99,9, IT < 0,2
⁹⁹Nb	15,0 s	3,639	9/2+	β⁻ = 100
^99m1Nb	2,6 min	4,004 (β⁻), 0,365 (IT)	1/2−	β⁻ = 96,2, IT < 3,8
¹⁰⁰Nb	1,5 s	6,25	1+	β⁻ = 100
^100m1Nb	2,99 s	6,75	4+, 5+	β⁻ = 100
¹⁰¹Nb	7,1 s	4,569	5/2+	β⁻ = 100
¹⁰²Nb	1,3 s	7,21	1+	β⁻ = 100
^102m1Nb	4,3 s	7,21		β⁻ = 100
¹⁰³Nb	1,5 s	5,53	5/2+	β⁻ = 100
¹⁰⁴Nb	4,8 s	8,11 (β⁻), 0,55 (β⁻n)	1+	β⁻ = 100, β⁻n = 0,71
^104m1Nb	0,92 s	8,325		β⁻ = 100
¹⁰⁵Nb	2,95 s	6,49	5/2+	β⁻ = 100
¹⁰⁶Nb	1,02 s	9,3		β⁻ = 100
¹⁰⁷Nb	0,33 s	7,9		β⁻ = 100
¹⁰⁸Nb	193 ms		2+
¹⁰⁹Nb	0,19 s	9,1 (β⁻), 5,0 (β⁻n)		β⁻ = 100, β⁻n = 31
¹¹⁰Nb	0,17 s	12,1 (β⁻), 5,8 (β⁻n)		β⁻ = 100, β⁻n = 40

42 Molybdän

Isotop	Halbwertszeit	Zerfallsenergie in MeV	Spin / Parität	Zerfallsart(en)	Häufigkeit in %
⁸⁴Mo		6,1	0+	K/β⁺ = 100
⁸⁵Mo
⁸⁶Mo	19,6 s	5,3	0+	K/β⁺ = 100
⁸⁷Mo	13,4 s	6,49 (K/β⁺), 2,82 (β⁺p)	(7/2+)	K/β⁺ = 100, β⁺p = ?
⁸⁸Mo	8,0 min	3,72	0+	K/β⁺ = 100
⁸⁹Mo	2,04 min	5,58	(9/2+)	K/β⁺ = 100
^89m1Mo	190 ms	0,387	(1/2−)	IT = 100
⁹⁰Mo	5,56 h	2,489	0+	K/β⁺ = 100
⁹¹Mo	15,49 min	4,434	9/2+	K/β⁺ = 100
^91m1Mo	65,0 s	5,087 (K/β⁺), 0,653 (IT)	1/2−	K/β⁺ = 49,9, IT = 50,1
⁹²Mo	stabil		0+		14,84
⁹³Mo	4,0 × 10³ a	0,405	5/2+	K = 100
^93m1Mo	6,85 h	2,830	21/2+	IT = 99,88, K/β⁺ = 0,12
⁹⁴Mo	stabil		0+		9,25
⁹⁵Mo	stabil		5/2+		15,92
⁹⁶Mo	stabil		0+		16,68
⁹⁷Mo	stabil		5/2+		9,55
⁹⁸Mo	stabil		0+		24,13
⁹⁹Mo	65,94 h	1,357	1/2+	β⁻ = 100
¹⁰⁰Mo	1,00 × 10¹⁹ a	3,034	0+	ββ = 100	9,63
¹⁰¹Mo	14,61 min	2,824	1/2+	β⁻ = 100
¹⁰²Mo	11,3 min	1,01	0+	β⁻ = 100
¹⁰³Mo	67,5 s	3,75	(3/2+)	β⁻ = 100
¹⁰⁴Mo	60 s	2,16	0+	β⁻ = 100
¹⁰⁵Mo	35,6 s	4,95	(5/2−)	β⁻ = 100
¹⁰⁶Mo	8,4 s	3,52	0+	β⁻ = 100
¹⁰⁷Mo	3,5 s	6,16		β⁻ = 100
¹⁰⁸Mo	1,09 s	4,64	0+	β⁻ = 100
¹⁰⁹Mo	0,53 s	7,5		β⁻ = 100
¹¹⁰Mo	0,30 s	5,9	0+	β⁻ = 100

43 Technetium

Isotop	Halbwertszeit	Zerfallsenergie in MeV	Spin / Parität	Zerfallsart(en)
⁸⁸Tc	6,4 s	10,1	(6,7,8)	K/β⁺ = 100
^88m1Tc	5,8 s	10,1	(2,3)	K/β⁺ = 100
⁸⁹Tc	12,8 s	7,51	(9/2+)	K/β⁺ = 100
^89m1Tc	12,9 s	7,51	(1/2−)	K/β⁺ = 100
⁹⁰Tc	49,2 s	9,1	(8+)	K/β⁺ = 100
^90m1Tc	8,7 s	9,6	1+	K/β⁺ = 100
⁹¹Tc	3,14 min	6,22	(9/2) +	K/β⁺ = 100
^91m1Tc	3,3 min	6,57 (K/β⁺), 0,35 (IT)	(1/2) -	K/β⁺ = 100, IT < 1
⁹²Tc	4,23 min	7,87	(8) +	K/β⁺ = 100
⁹³Tc	2,75 h	3,201	9/2+	K/β⁺ = 100
^93m1Tc	43,5 min	3,593 (K/β⁺), 0,392 (IT)	1/2−	IT = 76,6, K/β⁺ = 23,4
^93m2Tc	10,2 µs	2,185	17/2−	IT = 100
⁹⁴Tc	293 min	4,256	7+	K/β⁺ = 100
^94m1Tc	52,0 min	1,730 (K/β⁺), 0,075 (IT)	(2) +	K/β⁺ = 100, IT < 0,1
⁹⁵Tc	20,0 h	1,691	9/2+	K/β⁺ = 100
^95m1Tc	61 d	1,730 (K/β⁺), 0,039 (IT)	1/2−	K/β⁺ = 96,12, IT = 3,88
⁹⁶Tc	4,28 d	2,973	7+	K/β⁺ = 100
^96m1Tc	51,5 min	3,007 (K/β⁺), 0,034 (IT)	4+	IT = 98,0, K/β⁺ = 2,0
⁹⁷Tc	2,6 × 10⁶ a	0,320	9/2+	K = 100
^97m1Tc	90,1 d	0,471 (K/β⁺), 0,097 (IT)	1/2−	IT = 100, K<0,34
⁹⁸Tc	4,2 × 10⁶ a	1,796	(6) +	β⁻ = 100
⁹⁹Tc	2,111 × 10⁵ a	0,294	9/2+	β⁻ = 100
^99m1Tc	6,01 h	0,143 (IT), 0,437 (β⁻)	1/2−	IT = 99,9963, β⁻ = 0,0037
¹⁰⁰Tc	15,8 s	3,202 (β⁻), 0,168 (K)	1+	β⁻ = 99,9982, K = 0,0018
¹⁰¹Tc	14,22 min	1,614	9/2+	β⁻ = 100
¹⁰²Tc	5,28 s	4,53	1+	β⁻ = 100
^102m1Tc	4,35 min	4,53 (β⁻), 0,0 (IT)	(4,5)	β⁻ = 98, IT = 2
¹⁰³Tc	54,2 s	2,66	5/2+	β⁻ = 100
¹⁰⁴Tc	18,3 min	5,60	(3+)	β⁻ = 100
¹⁰⁵Tc	7,6 min	3,64	(3/2−)	β⁻ = 100
¹⁰⁶Tc	35,6 s	6,547	1, 2	β⁻ = 100
¹⁰⁷Tc	21,2 s	4,82		β⁻ = 100
¹⁰⁸Tc	5,17 s	7,72	2+	β⁻ = 100
¹⁰⁹Tc	0,87 s	5,99	(3/2−)	β⁻ = 100
¹¹⁰Tc	0,92 s	8,8	1+, 2+	β⁻ = 100
¹¹¹Tc	0,3 s	7,0		β⁻ = 100
¹¹²Tc	0,28 s	10,0		β⁻ = 100
¹¹³Tc	0,13 s	8,2		β⁻ = 100

44 Ruthenium

Isotop	Halbwertszeit	Zerfallsenergie in MeV	Spin / Parität	Zerfallsart(en)	Häufigkeit in %
⁹⁰Ru	11 s	5,6	0+	K/β⁺ = 100
⁹¹Ru	9 s	7,4	(9/2+)	K/β⁺ = 100
^91m1Ru	7,6 s	7,4 (K/β⁺), 4,3 (Kp)	(1/2−)	K/β⁺ = ?, Kp = ?, IT = ?
⁹²Ru	3,65 min	4,5	0+	K/β⁺ = 100
⁹³Ru	59,7 s	6,34	(9/2) +	K/β⁺ = 100
^93m1Ru	10,8 s	0,734 (IT), 7,074 (K/β⁺), 2,984 (Kp)	(1/2) -	IT = 22,0, K/β⁺ = 78,0, Kp = 0,027
⁹⁴Ru	51,8 min	1,593	0+	K/β⁺ = 100
⁹⁵Ru	1,643 h	2,572	5/2+	K/β⁺ = 100
⁹⁶Ru	stabil		0+		5,52
⁹⁷Ru	2,9 d	1,115	5/2+	K = 100
⁹⁸Ru	stabil		0+		1,88
⁹⁹Ru	stabil		5/2+		12,7
¹⁰⁰Ru	stabil		0+		12,6
¹⁰¹Ru	stabil		5/2+		17,0
¹⁰²Ru	stabil		0+		31,6
¹⁰³Ru	39,26 d	0,763	3/2+	β⁻ = 100
^103m1Ru	1,69 ms	0,238	11/2−	IT = 100
¹⁰⁴Ru	stabil		0+		18,7
¹⁰⁵Ru	4,44 h	1,917	3/2+	β⁻ = 100
¹⁰⁶Ru	373,59 d	0,039	0+	β⁻ = 100
¹⁰⁷Ru	3,75 min	2,94	(5/2) +	β⁻ = 100
¹⁰⁸Ru	4,55 min	1,36	0+	β⁻ = 100
¹⁰⁹Ru	34,5 s	4,16	(5/2+)	β⁻ = 100
¹¹⁰Ru	14,6 s	2,81	0+	β⁻ = 100
¹¹¹Ru	2,12 s	5,50		β⁻ = 100
¹¹²Ru	1,75 s	3,67	0+	β⁻ = 100
¹¹³Ru	0,80 s	6,6		β⁻ = 100
¹¹⁴Ru	0,53 s	4,8	0+	β⁻ = 100
¹¹⁵Ru	0,40 s	7,6 (β⁻), 0,7 (β⁻n)		β⁻ = 100, β⁻n = ?

45 Rhodium

Isotop	Halbwertszeit	Zerfallsenergie in MeV	Spin / Parität	Zerfallsart(en)	Häufigkeit in %
⁹³Rh		8,1	9/2+	K/β⁺ = 100
⁹⁴Rh	70,6 s	9,6 (K/β⁺)	(3+)	K/β⁺ = 100, Kp = 1,8
^94m1Rh	25,8 s	9,6	(8+)	K/β⁺ = 100
⁹⁵Rh	5,02 min	5,11	(9/2) +	K/β⁺ = 100
^95m1Rh	1,96 min	5,653 (K/β⁺), 0,543 (IT)	(1/2) -	K/β⁺ = 12, IT = 88
⁹⁶Rh	9,90 min	6,446	6+	K/β⁺ = 100
^96m1Rh	1,51 min	0,052 (IT), 6,498 (K/β⁺)	3+	IT = 60, K/β⁺ = 40
⁹⁷Rh	30,7 min	3,52	(9/2) +	K/β⁺ = 100
^97m1Rh	46,2 min	3,779 (K/β⁺), 0,259 (IT)	(1/2) -	K/β⁺ = 94,4, IT = 5,6
⁹⁸Rh	8,7 min	5,057	(2) +	K/β⁺ = 100
^98m1Rh	3,5 min	5,057 (K/β⁺), 0,0 (IT)	(5+)	K/β⁺>0, IT = ?
⁹⁹Rh	16,1 d	2,103	1/2−	K/β⁺ = 100
^99m1Rh	4,7 h	2,167 (K/β⁺), 0,064 (IT)	9/2+	K/β⁺>99,84, IT < 0,16
¹⁰⁰Rh	20,8 h	3,630	1−	K/β⁺ = 100
^100m1Rh	4,6 min	0,0 (IT), 3,630 (K/β⁺)	(5+)	IT ≈ 98,3, K/β⁺ ≈ 1,7
¹⁰¹Rh	3,3 a	0,542	1/2−	K = 100
^101m1Rh	4,34 d	0,699 (K), 0,157 (IT)	9/2+	K = 92,8, IT = 7,2
¹⁰²Rh	207 d	2,323 (K/β⁺), 1,150 (β⁻)	(1−,2−)	K/β⁺ = 80, β⁻ = 20
^102m1Rh	2,9 a	2,464 (K/β⁺), 0,141 (IT)	6(+)	K/β⁺ = 99,767, IT = 0,233
¹⁰³Rh	stabil		1/2−		100
^103m1Rh	56,12 min	0,040	7/2+	IT = 100
¹⁰⁴Rh	42,3 s	2,441 (β⁻), 1,141 (K/β⁺)	1+	β⁻ = 99,55, K/β⁺ = 0,45
^104m1Rh	4,34 min	0,129 (IT), 2,570 (β⁻)	5+	IT = 99,87, β⁻ = 0,13
¹⁰⁵Rh	35,36 h	0,567	7/2+	β⁻ = 100
^105m1Rh	45 s	0,130	1/2−	IT = 100
¹⁰⁶Rh	29,80 s	3,541	1+	β⁻ = 100
^106m1Rh	131 min	3,678	(6) +	β⁻ = 100
¹⁰⁷Rh	21,7 min	1,511	7/2+	β⁻ = 100
¹⁰⁸Rh	16,8 s	4,510	1+	β⁻ = 100
^108m1Rh	6,0 min	4,510	(5+)	β⁻ = 100
¹⁰⁹Rh	80 s	2,591	7/2+	β⁻ = 100
¹¹⁰Rh	3,2 s	5,40	1+	β⁻ = 100
^110m1Rh	28,5 s	5,40		β⁻ = 100
¹¹¹Rh	11 s	3,74	7/2+	β⁻ = 100
¹¹²Rh	2,1 s	6,8	1+	β⁻ = 100
^112m1Rh	6,8 s	6,8		β⁻ = 100
¹¹³Rh	2,8 s	4,9	7/2+	β⁻ = 100
¹¹⁴Rh	1,85 s	7,9	1+	β⁻ = 100
^114m1Rh	1,85 s	7,9		β⁻ = 100
¹¹⁵Rh	0,99 s	6,0	7/2+	β⁻ = 100
¹¹⁶Rh	0,68 s	8,9	1+	β⁻ = 100
^116m1Rh	0,9 s	8,9	5, 6, 7	β⁻ = 100
¹¹⁷Rh	0,44 s	7,0	7/2+	β⁻ = 100

46 Palladium

Isotop	Halbwertszeit	Zerfallsenergie in MeV	Spin / Parität	Zerfallsart(en)	Häufigkeit in %
⁹³Pd	60 s	9,5		K/β⁺ = 100
⁹⁴Pd	9 s	6,6	0+	K/β⁺ = 100
⁹⁵Pd
^95m1Pd	13,3 s	10,2 (K/β⁺), 2,0 (IT), 7,1 (Kp)	21/2+	K/β⁺> = 91,3, IT < 9,7, Kp = 0,9
⁹⁶Pd	122 s	3,45	0+	K/β⁺ = 100
⁹⁷Pd	3,10 min	4,80	(5/2+)	K/β⁺ = 100
⁹⁸Pd	17,7 min	1,873	0+	K/β⁺ = 100
⁹⁹Pd	21,4 min	3,365	(5/2) +	K/β⁺ = 100
¹⁰⁰Pd	3,63 d	0,361	0+	K = 100
¹⁰¹Pd	8,47 h	1,980	5/2+	K/β⁺ = 100
¹⁰²Pd	stabil		0+		1,02
¹⁰³Pd	16,991 d	0,543	5/2+	K = 100
¹⁰⁴Pd	stabil		0+		11,14
¹⁰⁵Pd	stabil		5/2+		22,33
¹⁰⁶Pd	stabil		0+		27,33
¹⁰⁷Pd	6,5 × 10⁶ a	0,033	5/2+	β⁻ = 100
^107m1Pd	21,3 s	0,215	11/2−	IT = 100
¹⁰⁸Pd	stabil		0+		26,46
¹⁰⁹Pd	13,7012 h	1,116	5/2+	β⁻ = 100
^109m1Pd	4,696 min	0,189	11/2−	IT = 100
¹¹⁰Pd	stabil		0+		11,72
¹¹¹Pd	23,4 min	2,190	5/2+	β⁻ = 100
^111m1Pd	5,5 h	0,172 (IT), 2,362 (β⁻)	11/2−	IT = 73, β⁻ = 27
¹¹²Pd	21,03 h	0,288	0+	β⁻ = 100
¹¹³Pd	93 s	3,340	(5/2+)	β⁻ = 100
^113m1Pd	100 s	3,340		β⁻ = ?
^113m2Pd	0,3 s	0,081	(9/2−)	IT = 100
¹¹⁴Pd	2,42 min	1,451	0+	β⁻ = 100
¹¹⁵Pd	25 s	4,580	(5/2+)	β⁻ = 100
^115m1Pd	50 s	4,669 (β⁻), 0,089 (IT)	(11/2−)	β⁻ = 92,0, IT = 8,0
¹¹⁶Pd	11,8 s	2,610	0+	β⁻ = 100
¹¹⁷Pd	4,3 s	5,70	(5/2+)	β⁻ = 100
^117m1Pd	19,1 ms	0,203	(11/2−)	IT = 100
¹¹⁸Pd	1,9 s	4,1	0+	β⁻ = 100
¹¹⁹Pd	0,92 s	6,5		β⁻ = 100
¹²⁰Pd	0,5 s	5,0	0+	β⁻ = 100

47 Silber

Isotop	Halbwertszeit	Zerfallsenergie in MeV	Spin / Parität	Zerfallsart(en)	Häufigkeit in %
⁹⁴Ag	10 ms		0+	K/β⁺ = 100
^94m1Ag	0,42 s		(9+)	K/β⁺ = 100, Kp = ?
⁹⁵Ag	2,0 s			K/β⁺ = 100, Kp = ?
⁹⁶Ag	5,1 s	11,6 (K/β⁺), 6,5 (Kp)	(8+, 9+)	K/β⁺ = 100, Kp = 8,0
⁹⁷Ag	19 s	7,0	(9/2+)	K/β⁺ = 100
⁹⁸Ag	46,7 s	8,42	(5+)	K/β⁺ = 100
⁹⁹Ag	124 s	5,43	(9/2) +	K/β⁺ = 100
^99m1Ag	10,5 s	0,506	(1/2−)	IT = 100
¹⁰⁰Ag	2,01 min	7,050	(5) +	K/β⁺ = 100
^100m1Ag	2,24 min	7,066 (K/β⁺), 0,015 (IT)	(2) +	K/β⁺ = ?, IT = ?
¹⁰¹Ag	11,1 min	4,200	9/2+	K/β⁺ = 100
^101m1Ag	3,10 s	0,274	(1/2) -	IT = 100
¹⁰²Ag	12,9 min	5,920	5+	K/β⁺ = 100
^102m1Ag	7,7 min	5,929 (K/β⁺), 0,009 (IT)	2+	K/β⁺ = 51, IT = 49
¹⁰³Ag	65,7 min	2,688	7/2+	K/β⁺ = 100
^103m1Ag	5,7 s	0,134	1/2−	IT = 100
¹⁰⁴Ag	69,2 min	4,279	5+	K/β⁺ = 100
^104m1Ag	33,5 min	4,286 (K/β⁺), 0,007 (IT)	2+	K/β⁺ = 100, IT < 0,07
¹⁰⁵Ag	41,29 d	1,346	1/2−	K/β⁺ = 100
^105m1Ag	7,23 min	0,025 (IT), 1,371 (K/β⁺)	7/2+	IT = 99,66, K/β⁺ = 0,34
¹⁰⁶Ag	23,96 min	2,965 (K/β⁺), 0,195 (β⁻)	1+	K/β⁺ = 99,5, β⁻ < 1
^106m1Ag	8,28 d	3,055	6+	K/β⁺ = 100
¹⁰⁷Ag	stabil		1/2−		51,839
^107m1Ag	44,3 s	0,093	7/2+	IT = 100
¹⁰⁸Ag	2,37 min	1,649 (β⁻), 1,918 (K/β⁺)	1+	β⁻ = 97,15, K/β⁺ = 2,85
^108m1Ag	418 a	2,027 (K/β⁺), 0,109 (IT)	6+	K/β⁺ = 91,3, IT = 8,7
¹⁰⁹Ag	stabil		1/2−		48,161
^109m1Ag	39,6 s	0,088	7/2+	IT = 100
¹¹⁰Ag	24,6 s	2,891 (β⁻), 0,893 (K)	1+	β⁻ = 99,70, K = 0,30
^110m1Ag	249,79 d	3,010 (β⁻), 0,188 (IT)	6+	β⁻ = 98,64, IT = 1,36
¹¹¹Ag	7,45 d	1,037	1/2−	β⁻ = 100
^111m1Ag	64,8 s	0,060 (IT), 1,097 (β⁻)	7/2+	IT = 99,3, β⁻ = 0,7
¹¹²Ag	3,130 h	3,956	2(−)	β⁻ = 100
¹¹³Ag	5,37 h	2,016	1/2−	β⁻ = 100
^113m1Ag	68,7 s	0,043 (IT), 2,059 (β⁻)	7/2+	IT = 64, β⁻ = 36
¹¹⁴Ag	4,6 s	5,080	1+	β⁻ = 100
^114m1Ag	1,50 ms		(LE 6+)	IT = 100
¹¹⁵Ag	20,0 min	3,100	1/2−	β⁻ = 100
^115m1Ag	18,0 s	3,141 (β⁻), 0,041 (IT)	7/2+	β⁻ = 79,0, IT = 21,0
¹¹⁶Ag	2,68 min	6,160	(2) -	β⁻ = 100
^116m1Ag	8,6 s	6,242 (β⁻), 0,082 (IT)	(5+)	β⁻ = 94,0, IT = 6,0
¹¹⁷Ag	72,8 s	4,160	(1/2−)	β⁻ = 100
^117m1Ag	5,34 s	4,189 (β⁻), 0,029 (IT)	(7/2+)	β⁻ = 94,0, IT = 6,0
¹¹⁸Ag	3,76 s	7,060	(1) -	β⁻ = 100
^118m1Ag	2,0 s	7,188 (β⁻), 0,128 (IT)	(4) +	β⁻ = 59, IT = 41
¹¹⁹Ag	2,1 s	5,35	(7/2+)	β⁻ = 100
^119m1Ag	6,0 s	5,35	(1/2−)	β⁻ = 100
¹²⁰Ag	1,23 s	8,200	(3+)	β⁻ = 100
^120m1Ag	0,32 s	8,403 (β⁻), 0,203 (IT)	(6−)	β⁻ ≈ 63, IT ≈ 37
¹²¹Ag	0,78 s	6,40 (β⁻), 1,35 (β⁻n)	(7/2+)	β⁻ = 100, β⁻n = 0,080
¹²²Ag	0,48 s	9,1 (β⁻) 1,4 (β⁻n)	(3+)	β⁻ = 100, β⁻n = ?
^122m1Ag	1,5 s			β⁻ = 100
¹²³Ag	0,309 s	7,4 (β⁻), 2,5 (β⁻n)	(7/2+)	β⁻ = 100, β⁻n = 55
¹²⁴Ag	0,172 s	10,1 (β⁻), 2,7 (β⁻n)		β⁻ = 100, β⁻n>0,1
¹²⁵Ag	166 ms			β⁻ = 100, β⁻n = ?
¹²⁶Ag	107 ms			β⁻ = 100
¹²⁷Ag	109 ms			β⁻ = 100
¹²⁸Ag	58 ms			β⁻ = 100, β⁻n = ?

48 Cadmium

Isotop	Halbwertszeit	Zerfallsenergie in MeV	Spin / Parität	Zerfallsart(en)	Häufigkeit in %
⁹⁷Cd	3 s			K/β⁺ = 100, Kp = ?
⁹⁸Cd	9,2 s	5,42	0+	K/β⁺ = 100
⁹⁹Cd	16 s	6,90 (K/β⁺), 4,15 (Kp), 6,10 (Kα)	(5/2+)	K/β⁺ = 100, Kp = 0,17 $\left.^{+11}_{-5}\right.$ , Kα < 1 × 10⁻⁴
¹⁰⁰Cd	49,1 s	3,88	0+	K/β⁺ = 100
¹⁰¹Cd	1,36 min	5,48	(5/2+)	K/β⁺ = 100
¹⁰²Cd	5,5 min	2,587	0+	K/β⁺ = 100
¹⁰³Cd	7,3 min	4,142	(5/2+)	K/β⁺ = 100
¹⁰⁴Cd	57,7 min	1,136	0+	K/β⁺ = 100
¹⁰⁵Cd	55,5 min	2,739	5/2+	K/β⁺ = 100
¹⁰⁶Cd	stabil		0+		1,25
¹⁰⁷Cd	6,50 h	1,417	5/2+	K/β⁺ = 100
¹⁰⁸Cd	stabil		0+		0,89
¹⁰⁹Cd	462,6 d	0,214	5/2+	K = 100
¹¹⁰Cd	stabil		0+		12,49
¹¹¹Cd	stabil		1/2+		12,80
^111m1Cd	48,54 min	0,396	11/2−	IT = 100
¹¹²Cd	stabil		0+		24,13
¹¹³Cd	7,7 × 10¹⁵ a	0,316	1/2+	β⁻ = 100	12,22
^113m1Cd	14,1 a	0,580 (β⁻), 0,264 (IT)	11/2−	β⁻ = 99,86, IT = 0,14
¹¹⁴Cd	stabil		0+		28,73
¹¹⁵Cd	53,46 h	1,446	1/2+	β⁻ = 100
^115m1Cd	44,6 d	1,627	11/2−	β⁻ = 100
¹¹⁶Cd	stabil		0+		7,49
¹¹⁷Cd	2,49 h	2,517	1/2+	β⁻ = 100
^117m1Cd	3,36 h	2,653	(11/2) -	β⁻ = 100
¹¹⁸Cd	50,3 min	0,520	0+	β⁻ = 100
¹¹⁹Cd	2,69 min	3,800	3/2+	β⁻ = 100
^119m1Cd	2,20 min	3,947	(11/2−)	β⁻ = 100
¹²⁰Cd	50,80 s	1,760	0+	β⁻ = 100
¹²¹Cd	13,5 s	4,890	(3/2+)	β⁻ = 100
^121m1Cd	8,3 s	5,105	(11/2−)	β⁻ = 100
¹²²Cd	5,24 s	3,00	0+	β⁻ = 100
¹²³Cd	2,10 s	6,120	(3/2) +	β⁻ = 100
^123m1Cd	1,82 s	6,437 (β⁻), 0,317 (IT)	(11/2−)	β⁻ = 100, IT = ?
¹²⁴Cd	1,25 s	4,17	0+	β⁻ = 100
¹²⁵Cd	0,65 s	7,16	(3/2+)	β⁻ = 100
^125m1Cd	0,57 s	7,209	(11/2−)	β⁻ = 100
¹²⁶Cd	0,506 s	5,49	0+	β⁻ = 100
¹²⁷Cd	0,37 s	8,47	(3/2+)	β⁻ = 100
¹²⁸Cd	0,34 s	7,1	0+	β⁻ = 100
¹²⁹Cd	0,27 s		(3/2+)	β⁻ = 100
¹³⁰Cd	0,20 s		0+	β⁻ = 100, β⁻n ≈ 4

49 Indium

Isotop	Halbwertszeit	Zerfallsenergie in MeV	Spin / Parität	Zerfallsart(en)	Häufigkeit in %
¹⁰⁰In	7,0 s	10,2 (K/β⁺), 5,3 (Kp)		K/β⁺ = 100, Kp>3,9
¹⁰¹In	15,1 s	7,3 (K/β⁺), 2,5 (Kp)		K/β⁺ ≈ 100, Kp = ?
¹⁰²In	22 s	8,9 (K/β⁺)	(6+)	K/β⁺ = 100, Kp = 0,0093
¹⁰³In	65 s	6,05	(9/2) +	K/β⁺ = 100
^103m1In	34 s		(1/2−)	K/β⁺ = 67, IT = 33
¹⁰⁴In	1,80 min	7,91	(6+)	K/β⁺ = 100
^104m1In	15,7 s	0,094 (IT), 8,003 (K/β⁺)	(3+)	IT = 80, K/β⁺ = 20
¹⁰⁵In	5,07 min	4,849	(9/2) +	K/β⁺ = 100
^105m1In	48 s	0,674	(1/2) -	IT = 100
¹⁰⁶In	6,2 min	6,521	7+	K/β⁺ = 100
^106m1In	5,2 min	6,550	(3+)	K/β⁺ = 100
¹⁰⁷In	32,4 min	3,426	9/2+	K/β⁺ = 100
^107m1In	50,4 s	0,678	1/2−	IT = 100
¹⁰⁸In	58,0 min	5,148	7+	K/β⁺ = 100
^108m1In	39,6 min	5,178	2+	K/β⁺ = 100
¹⁰⁹In	4,2 h	2,020	9/2+	K/β⁺ = 100
^109m1In	1,34 min	0,650	1/2−	IT = 100
^109m2In	0,209 s	2,102	(19/2+)	IT = 100
¹¹⁰In	4,9 h	3,878	7+	K/β⁺ = 100
^110m1In	69,1 min	3,940	2+	K/β⁺ = 100
¹¹¹In	2,8047 d	0,865	9/2+	K = 100
^111m1In	7,7 min	0,537	1/2−	IT = 100
¹¹²In	14,97 min	2,586 (K/β⁺), 0,664 (β⁻)	1+	K/β⁺ = 56, β⁻ = 44
^112m1In	20,56 min	0,157	4+	IT = 100
¹¹³In	stabil		9/2+		4,3
^113m1In	1,6582 h	0,392	1/2−	IT = 100
¹¹⁴In	71,9 s	1,989 (β⁻), 1,452 (K/β⁺)	1+	β⁻ = 99,50, K/β⁺ = 0,50
^114m1In	49,51 d	0,190 (IT), 1,642 (K/β⁺)	5+	IT = 96,75, K/β⁺ = 3,25
^114m2In	43,1 ms	0,502 (IT)	8−	IT = 100
¹¹⁵In	4,41 × 10¹⁴ a	0,495	9/2+	β⁻ = 100	95,7
^115m1In	4,486 h	0,336 (IT), 0,831 (β⁻)	1/2−	IT = 95,0, β⁻ = 5,0
¹¹⁶In	14,10 s	3,274 (β⁻), 0,470 (K)	1+	β⁻>99,94, K<0,06
^116m1In	54,29 min	3,401	5+	β⁻ = 100
^116m2In	2,18 s	0,290	8−	IT = 100
¹¹⁷In	43,2 min	1,455	9/2+	β⁻ = 100
^117m1In	116,2 min	1,770 (β⁻), 0,315 (IT)	1/2−	β⁻ = 52,9, IT = 47,1
¹¹⁸In	5,0 s	4,423	1+	β⁻ = 100
^118m1In	4,45 min	4,483	5+	β⁻ = 100
^118m2In	8,5 s	0,200 (IT), 4,623 (β⁻)	8−	IT = 98,6, β⁻ = 1,4
¹¹⁹In	2,4 min	2,364	9/2+	β⁻ = 100
^119m1In	18,0 min	2,675 (β⁻), 0,311 (IT)	1/2−	β⁻ = 94,4, IT = 5,6
¹²⁰In	3,08 s	5,370	1+	β⁻ = 100
^120m1In	46,2 s	5,370	(3,4,5) +	β⁻ = 100
^120m2In	47,3 s	5,370	(8−)	β⁻ = 100
¹²¹In	23,1 s	3,360	9/2+	β⁻ = 100
^121m1In	3,88 min	3,674 (β⁻), 0,314 (IT)	1/2−	β⁻ = 98,8, IT = 1,2
¹²²In	1,5 s	6,370	1+	β⁻ = 100
^122m1In	10,3 s	6,370	5+	β⁻ = 100
^122m2In	10,8 s	6,370	8−	β⁻ = 100
¹²³In	5,98 s	4,391	9/2+	β⁻ = 100
^123m1In	47,8 s	4,718	1/2−	β⁻ = 100
¹²⁴In	3,11 s	7,36	3+	β⁻ = 100
^124m1In	3,7 s	7,41	(8−)	β⁻ = 100
¹²⁵In	2,36 s	5,42	9/2(+)	β⁻ = 100
^125m1In	12,2 s	5,78	1/2(−)	β⁻ = 100
¹²⁶In	1,60 s	8,21	3(+)	β⁻ = 100
^126m1In	1,64 s	8,321	7−,8−,9−	β⁻ = 100
¹²⁷In	1,09 s	6,51 (β⁻), 0,95 (β⁻n)	(9/2+)	β⁻ = 100, β⁻n<0,03
^127m1In	3,67 s	6,972 (β⁻), 1,421 (β⁻n)	(1/2−)	β⁻ = 100, β⁻n = 0,69
¹²⁸In	0,84 s	8,90 (β⁻), 1,08 (β⁻n)	(3+)	β⁻ = 100, β⁻n<0,04
^128m1In	0,72 s	9,30 (β⁻), 1,40 (β⁻n)	(8−)	β⁻ = 100, β⁻n<0,04
¹²⁹In	0,61 s	7,66 (β⁻), 2,29 (β⁻n)	(9/2+)	β⁻ = 100, β⁻n = 0,25
^129m1In	1,23 s	8,04 (β⁻), 2,67 (β⁻n), 0,38 (IT)	(1/2−)	β⁻>99,7, β⁻n = 2,5, IT < 0,3
¹³⁰In	0,32 s	10,25 (β⁻), 2,57 (β⁻n)	1(−)	β⁻ = 100, β⁻n = 0,90
^130m1In	0,55 s	10,30 (β⁻), 2,62 (β⁻n)	(10−)	β⁻ = 100, β⁻n<1,67
^130m2In	0,55 s	10,65 (β⁻), 2,97 (β⁻n)	(5+)	β⁻ = 100, β⁻n<1,67
¹³¹In	0,282 s	9,18 (β⁻), 3,97 (β⁻n)	(9/2+)	β⁻ = 100, β⁻n<2,2
^131m1In	0,35 s	9,543 (β⁻), 4,333 (β⁻n), 0,636 (IT)	(1/2−)	β⁻ = 100, β⁻n<2,2, IT < 0,04
^131m2In	0,32 s	13,45 (β⁻), 8,24 (β⁻n), 4,27 (IT)	(21/2+)	β⁻ = 100, β⁻n<2,2
¹³²In	0,201 s	13,6 (β⁻), 6,3 (β⁻n)	(7−)	β⁻ = 100, β⁻n = 6,2
¹³³In	180 ms	13,5 (β⁻), 11,1 (β⁻n)	(9/2+)	β⁻ = 100, β⁻n = 85
¹³⁴In	138 ms			β⁻ = 100, β⁻n = 65

50 Zinn

Isotop	Halbwertszeit	Zerfallsenergie in MeV	Spin / Parität	Zerfallsart(en)	Häufigkeit in %
¹⁰⁰Sn	0,94 s	7,27 (K/β⁺), 5,70 (Kp)	0+	K/β⁺ = 100, Kp < 17
¹⁰¹Sn	3 s	8,8 (K/β⁺), 7,5 (Kp)		K/β⁺ = 100, Kp = ?
¹⁰²Sn	4,5 s	5,4	0+	K/β⁺ = 100
¹⁰³Sn	7 s		7,7	K/β⁺ = 100
¹⁰⁴Sn	20,8 s	4,52	0+	K/β⁺ = 100
¹⁰⁵Sn	31 s	6,25 (K/β⁺), 3,45 (β⁺p)		K/β⁺ = 100, β⁺p = ?
¹⁰⁶Sn	115 s	3,18	0+	K/β⁺ = 100
¹⁰⁷Sn	2,90 min	5,01	(5/2+)	K/β⁺ = 100
¹⁰⁸Sn	10,30 min	2,092	0+	K/β⁺ = 100
¹⁰⁹Sn	18,0 min	3,850	5/2(+)	K/β⁺ = 100
¹¹⁰Sn	4,11 h	0,638	0+	K = 100
¹¹¹Sn	35,3 min	2,445	7/2+	K/β⁺ = 100
¹¹²Sn	stabil		0+		0,97
¹¹³Sn	115,09 d	1,036	1/2+	K/β⁺ = 100
^113m1Sn	21,4 min	0,077 (IT), 1,113 (K/β⁺)	7/2+	IT = 91,1, K/β⁺ = 8,9
¹¹⁴Sn	stabil		0+		0,65
^114m1Sn	3,26 µs	0,613	7/2+	IT = 100
^114m2Sn	159 µs	0,713	11/2+	IT = 100
¹¹⁵Sn	stabil		1/2+		0,34
¹¹⁶Sn	stabil		0+		14,53
¹¹⁷Sn	stabil		1/2+		7,68
^117m1Sn	13,60 d	0,315	11/2−	IT = 100
¹¹⁸Sn	stabil		0+		24,23
¹¹⁹Sn	stabil		1/2+		8,59
^119m1Sn	293,1 d	0,090	11/2−	IT = 100
¹²⁰Sn	stabil		0+		32,59
¹²¹Sn	27,06 h	0,388	3/2+	β⁻ = 100
^121m1Sn	44 a	0,006 (IT), 0,394 (β⁻)	11/2−	IT = 77,6, β⁻ = 22,4
¹²²Sn	stabil		0+		4,63
¹²³Sn	129,2 d	1,404	11/2−	β⁻ = 100
^123m1Sn	40,06 min	1,429	3/2+	β⁻ = 100
¹²⁴Sn	stabil		0+		5,79
^124m1Sn	45 µs	2,657	10+	IT = 100
¹²⁵Sn	9,64 d	2,364	11/2−	β⁻ = 100
^125m1Sn	9,52 min	2,364	3/2+	β⁻ = 100
¹²⁶Sn	1 × 10⁵ a	0,380	0+	β⁻ = 100
¹²⁷Sn	2,10 h	3,201	(11/2−)	β⁻ = 100
^127m1Sn	4,13 min	3,206	(3/2+)	β⁻ = 100
¹²⁸Sn	59,07 min	1,274	0+	β⁻ = 100
^128m1Sn	6,5 s	2,092	(7−)	IT = 100
¹²⁹Sn	2,23 min	4,000	(3/2+)	β⁻ = 100
^129m1Sn	6,9 min	4,035 (β⁻), 0,035 (IT)	(11/2−)	β⁻ = 100, IT ≈ 2 × 10^-4
¹³⁰Sn	3,72 min	2,150	0+	β⁻ = 100
^130m1Sn	1,7 min	4,097	(7−)	β⁻ = 100
¹³¹Sn	56,0 s	4,638	(3/2+)	β⁻ = 100
^131m1Sn	58,4 s	4,880 (β⁻), 0,242 (IT)	(11/2−)	β⁻ = 100, IT < 0,009
¹³²Sn	39,7 s	3,30	0+	β⁻ = 100
¹³³Sn	1,45 s	7,99 (β⁻), 0,69 (β⁻n)	(7/2−)	β⁻ = 100, β⁻n = 0,08
¹³⁴Sn	1,12 s	6,8 (β⁻), 3,7 (β⁻n)	0+	β⁻ = 100, β⁻n = 17

51 Antimon

Isotop	Halbwertszeit	Zerfallsenergie in MeV	Spin / Parität	Zerfallsart(en)	Häufigkeit in %
¹⁰⁴Sb	7,4 s	12,20 (K/β⁺), 8,00 (Kp), 0,31 (p)		K/β⁺ ≈ 100, Kp < 7, p < 1
¹⁰⁵Sb	1,12 s	9,44 (K/β⁺), 0,483 (p)		K/β⁺ ≈ 100, p = ?
¹⁰⁶Sb			4+
¹⁰⁷Sb		7,9 (K/β⁺), 1,5 (α)	5/2+	K/β⁺ = ?, α = ?
¹⁰⁸Sb	7,4 s	9,51 (K/β⁺)	(4+)	K/β⁺ = 100, Kp = ?
¹⁰⁹Sb	17,0 s	6,38	(5/2+)	K/β⁺ = 100
¹¹⁰Sb	23,0 s	8,30	3+	K/β⁺ = 100
¹¹¹Sb	75 s	5,10	(5/2+)	K/β⁺ = 100
¹¹²Sb	51,4 s	7,055	3+	K/β⁺ = 100
¹¹³Sb	6,67 min	3,905	5/2+	K/β⁺ = 100
¹¹⁴Sb	3,49 min	5,880	3+	K/β⁺ = 100
¹¹⁵Sb	32,1 min	3,030	5/2+	K/β⁺ = 100
^115m1Sb	6,2 ns	1,300	11/2−	IT = 100
^115m2Sb	159 ns	2,796	19/2−	IT = 100
^115m3Sb	4,1 ns	3,660	25/2+	IT = 100
¹¹⁶Sb	15,8 min	4,707	3+	K/β⁺ = 100
^116m1Sb	60,3 min	5,090	8−	K/β⁺ = 100
¹¹⁷Sb	2,80 h	1,757	5/2+	K/β⁺ = 100
^117m1Sb	355 µs	3,131	5/2+	IT = 100
¹¹⁸Sb	3,6 min	3,657	1+	K/β⁺ = 100
^118m1Sb	5,00 h	3,907	8−	K/β⁺ = 100
¹¹⁹Sb	38,19 h	0,594	5/2+	K = 100
^119m1Sb	0,85 s		(25/2+)	IT = 100
¹²⁰Sb	15,89 min	2,681	1+	K/β⁺ = 100
^120m1Sb	5,76 d	2,681	8−	K/β⁺ = 100
¹²¹Sb	stabil		5/2+		57,36
¹²²Sb	2,7238 d	1,979 (β⁻), 1,620 (K/β⁺)	2−	β⁻ = 97,59, K/β⁺ = 2,41
^122m1Sb	0,53 ms	0,137	5+	IT = 100
^122m2Sb	4,191 min	0,164	(8) -	IT = 100
¹²³Sb	stabil		7/2+		42,64
¹²⁴Sb	60,20 d	2,905	3−	β⁻ = 100
^124m1Sb	93 s	0,011 (IT), 2,916 (β⁻)	5+	IT = 75, β⁻ = 25
^124m2Sb	20,2 min	0,037	(8) -	IT = 100
¹²⁵Sb	2,7582 a	0,767	7/2+	β⁻ = 100
¹²⁶Sb	12,46 d	3,670	(8) -	β⁻ = 100
^126m1Sb	19,15 min	3,688 (β⁻), 0,016 (IT)	(5) +	β⁻ = 86, IT = 14
^126m2Sb	11 s	0,040	(3) -	IT = 100
¹²⁷Sb	3,85 d	1,581	7/2+	β⁻ = 100
¹²⁸Sb	9,01 h	4,380	8−	β⁻ = 100
^128m1Sb	10,4 min	4,380 (β⁻), 0,0 (IT)	5+	β⁻ = 96,4, IT = 3,6
¹²⁹Sb	4,40 h	2,380	7/2+	β⁻ = 100
^129m1Sb	17,7 min	4,231 (β⁻), 1,851 (IT)	(19/2−)	β⁻ = 85, IT = 15
¹³⁰Sb	39,5 min	4,96	(8−)	β⁻ = 100
^130m1Sb	6,3 min	4,96	(5) +	β⁻ = 100
¹³¹Sb	23,03 min	3,19	(7/2+)	β⁻ = 100
¹³²Sb	2,79 min	5,29	(4+)	β⁻ = 100
^132m1Sb	4,10 min	5,29	(8−)	β⁻ = 100
¹³³Sb	2,5 min	4,003	(7/2+)	β⁻ = 100
^133m1Sb	3 µs	4,365		IT = 100
^133m2Sb	16 µs	4,527		IT = 100
¹³⁴Sb	0,78 s	8,42	(0−)	β⁻ = 100
^134m1Sb	10,23 s	8,42 (β⁻), 0,91 (β⁻)	(7−)	β⁻ = 100, β⁻n = 0,091
¹³⁵Sb	1,71 s	8,12 (β⁻), 4,62 (β⁻n)	(7/2+)	β⁻ = 100, β⁻n = 16,4
¹³⁶Sb	0,82 s	9,3 (β⁻), 4,7 (β⁻n)		β⁻ = 100, β⁻n = 24,0, β⁻2n = ?

52 Tellur

Isotop	Halbwertszeit	Zerfallsenergie in MeV	Spin / Parität	Zerfallsart(en)	Häufigkeit in %
¹⁰⁶Te	60 µs	4,32	0+	α = 100
¹⁰⁷Te	3,1 ms	4,008 (α), 10,1 (K/β⁺)		α > 70, K/β⁺ < 30
¹⁰⁸Te	2,1 s	6,8 (K/β⁺), 3,442 (α)	0+	K/β⁺ = 51, α = 49, β⁺p = 2,4
¹⁰⁹Te	4,6 s	8,68 (K/β⁺), 3,23 (α)		K/β⁺ = 96,1, α = 3,9, Kp = ?
¹¹⁰Te	18,6 s	5,25 (K/β⁺), 2,723 (α)	0+	K/β⁺ ≈ 100, α ≈ 0,003
¹¹¹Te	19,3 s	7,37 (K/β⁺), 5,07 (Kp)	(5/2+)	K/β⁺ = 100, Kp = ?
¹¹²Te	2,0 min	4,35	0+	K/β⁺ = 100
¹¹³Te	1,7 min	6,10	(7/2+)	K/β⁺ = 100
¹¹⁴Te	15,2 min	2,80	0+	K/β⁺ = 100
¹¹⁵Te	5,8 min	4,64	7/2+	K/β⁺ = 100
^115m1Te	6,7 min	4,66 (K/β⁺), 0,02 (IT)	(1/2) +	K/β⁺ < 100, IT = ?
¹¹⁶Te	2,49 h	1,51	0+	K/β⁺ = 100
¹¹⁷Te	62 min	3,535	1/2+	K/β⁺ = 100
^117m1Te	103 ms	0,261	11/2−	IT = 100
¹¹⁸Te	6,00 d	0,278	0+	K = 100
¹¹⁹Te	16,03 h	2,293	1/2+	K/β⁺ = 100
^119m1Te	4,70 d	2,554 (K/β⁺), 0,261 (IT)	11/2−	K/β⁺ = 100, IT < 0,008
¹²⁰Te	stabil		0+		0,096
¹²¹Te	16,78 d	1,040	1/2+	K/β⁺ = 100
^121m1Te	154 d	0,294 (IT), 1,334 (K/β⁺)	11/2−	IT = 88,6, K/β⁺ = 11,4
¹²²Te	stabil		0+		2,603
¹²³Te	1 × 10¹³ a	0,051	1/2+	K = 100	0,908
^123m1Te	119,7 d	0,248	11/2−	IT = 100
¹²⁴Te	stabil		0+		4,816
¹²⁵Te	stabil		1/2+		7,139
^125m1Te	57,40 d	0,145	11/2−	IT = 100
¹²⁶Te	stabil		0+		18,95
¹²⁷Te	9,35 h	0,698	3/2+	β⁻ = 100
^127m1Te	109 d	0,088 (IT), 0,786 (β⁻)	11/2−	IT = 97,6, β⁻ = 2,4
¹²⁸Te	7,2 × 10²⁴ a	0,867	0+	ββ = 100	31,69
¹²⁹Te	69,6 min	1,498	3/2+	β⁻ = 100
^129m1Te	33,6 d	0,105 (IT), 1,604 (β⁻)	11/2−	IT = 63, β⁻ = 37
¹³⁰Te	7,9 × 10²⁰ a	2,528	0+	β⁻ β⁻ = 100	33,80
¹³¹Te	25,0 min	2,233	3/2+	β⁻ = 100
^131m1Te	30 h	2,415 (β⁻), 0,182 (IT)	11/2−	β⁻ = 77,8, IT = 22,2
¹³²Te	3,204 d	0,493	0+	β⁻ = 100
¹³³Te	12,5 min	2,920	(3/2+)	β⁻ = 100
^133m1Te	55,4 min	3,254 (β⁻), 0,334 (IT)	(11/2−)	β⁻ = 82,5, IT = 17,5
¹³⁴Te	41,8 min	1,56	0+	β⁻ = 100
¹³⁵Te	19,0 s	5,96	(7/2−)	β⁻ = 100
¹³⁶Te	17,5 s	5,07 (β⁻), 1,29 (β⁻n)	0+	β⁻ = 100, β⁻n = 1,1
¹³⁷Te	2,49 s	6,94 (β⁻), 1,87 (β⁻n)	(7/2−)	β⁻ = 100, β⁻n = 2,69
¹³⁸Te	1,4 s	6,37 (β⁻), 2,50 (β⁻n)	0+	β⁻ = 100, β⁻n = 6,3

53 Iod

Isotop	Halbwertszeit	Zerfallsenergie in MeV	Spin / Parität	Zerfallsart(en)	Häufigkeit in %
¹⁰⁸I	36 ms	4,03 (α)	(1)	α = 91, p < 1
¹⁰⁹I	100 µs	0,82 (p)		p ≈ 100
¹¹⁰I	0,65 s	11,9 (K/β⁺), 3,58 (α), 8,6 (Kp), 17,7 (Kα)		K/β⁺ = 83, α = 17, Kp = 11, Kα = 1,1
¹¹¹I	2,5 s	8,50 (K/β⁺), 3,28 (α)	(5/2+)	K/β⁺ = 99,9, α ≈ 0,1
¹¹²I	3,42 s	10,20 (K/β⁺), 2,99 (α)		K/β⁺ = 100, α ≈ 0,0012
¹¹³I	6,6 s	7,20 (K/β⁺), 2,71 (α)	(5/2+)	K/β⁺ = 100, Kα = ?, α = 3,310 × 10^-7
¹¹⁴I	2,1 s	9,1 (K/β⁺), 4,3 (Kp)	1+	K/β⁺ = 100, Kp = ?
^114m1I	6,2 s	9,366 (K/β⁺), 0,266 (IT)	(7)	K/β⁺ = ?, IT = ?
¹¹⁵I	1,3 min	5,90	(5/2+)	K/β⁺ = 100
¹¹⁶I	2,91 s	7,75	1+	K/β⁺ = 100
^116m1I	3,27 µs		(7−)
¹¹⁷I	2,22 min	4,67	(5/2) +	K/β⁺ = 100
¹¹⁸I	13,7 min	7,04	2−	K/β⁺ = 100
^118m1I	8,5 min	7,144 (K/β⁺), 0,104 (IT)	(7−)	K/β⁺ < 100, IT > 0
¹¹⁹I	19,1 min	3,510	5/2+	K/β⁺ = 100
¹²⁰I	81,0 min	5,615	2−	K/β⁺ = 100
^120m1I	53 min	5,615	4 bis 8	K/β⁺ = 100
¹²¹I	2,12 h	2,270	5/2+	K/β⁺ = 100
¹²²I	3,63 min	4,234	1+	K/β⁺ = 100
^122m1I	80 µs
¹²³I	13,27 h	1,242	5/2+	K/β⁺ = 100
¹²⁴I	4,1760 d	3,160	2−	K/β⁺ = 100
¹²⁵I	59,408 d	0,027	5/2+	K = 100
¹²⁶I	13,11 d	2,155 (K/β⁺), 1,258 (β⁻)	2−	K/β⁺ = 56,3, β⁻ = 43,7
¹²⁷I	stabil		5/2+		100
¹²⁸I	24,99 min	2,118 (β⁻), 1,251 (K/β⁺)	1+	β⁻ = 93,1, K/β⁺ = 6,9
¹²⁹I	1,57 × 10⁷ a	0,194	7/2+	β⁻ = 100
¹³⁰I	12,36 h	2,949	5+	β⁻ = 100
^130m1I	9,0 min	0,040 (IT), 2,989 (β⁻)	2+	IT = 84, β⁻ = 16
¹³¹I	8,02070 d	0,606	7/2+	β⁻ = 100
¹³²I	2,295 h	3,577	4+	β⁻ = 100
^132m1I	1,387 h	0,120 (IT), 3,697 (β⁻)	(8−)	IT = 86, β⁻ = 14
¹³³I	20,8 h	1,770	7/2+	β⁻ = 100
^133m1I	9 s	1,634	(19/2−)	IT = 100
¹³⁴I	52,5 min	4,170	(4) +	β⁻ = 100
^134m1I	3,60 min	0,316 (IT), 4,486 (β⁻)	(8) -	IT = 97,7, β⁻ = 2,3
¹³⁵I	6,57 h	2,648	7/2+	β⁻ = 100
¹³⁶I	83,4 s	6,93	(1−)	β⁻ = 100
^136m1I	46,9 s	7,57	(6−)	β⁻ = 100
¹³⁷I	24,5 s	5,88 (β⁻), 1,85 (β⁻n)	(7/2+)	β⁻ = 100, β⁻n = 6,97
¹³⁸I	6,49 s	7,82 (β⁻), 2,01 (β⁻n)	(2−)	β⁻ = 100, β⁻n = 5,5
¹³⁹I	2,29 s	6,806 (β⁻), 3,21 (β⁻n)	(7/2+)	β⁻ = 100, β⁻n = 9,9
¹⁴⁰I	0,86 s	8,76 (β⁻), 3,34 (β⁻n)	(4)	β⁻ = 100, β⁻n = 9,3
¹⁴¹I	0,43 s	7,8 (β⁻), 4,4 (β⁻n)		β⁻ = 100, β⁻n = 21,2

54 Xenon

Isotop	Halbwertszeit	Zerfallsenergie in MeV	Spin / Parität	Zerfallsart(en)	Häufigkeit in %
¹¹⁰Xe	0,60 µs	3,886 (α)	0+	K/β⁺ = ?, α = ?
¹¹¹Xe	0,74 s	10,60 (K/β⁺), 3,72 (α)		K/β⁺ = ?, α = ?
¹¹²Xe	2,7 s	7,20 (K/β⁺), 3,317 (α)	0+	K/β⁺ = 99,2, α = 0,8 +11− 5
¹¹³Xe	2,74 s	9,06 (K/β⁺), 7,91 (Kp), 3,10 (α)		K/β⁺ ≈ 100, α ≈ 0,011, Kp = 7, Kα ≈ 0,007
¹¹⁴Xe	10,0 s	5,9	0+	K/β⁺ = 100
¹¹⁵Xe	18 s	8,0 (K/β⁺), 6,2 (Kp)	(5/2+)	K/β⁺ = 100, Kp = 0,34, Kα = 0,0003
¹¹⁶Xe	59 s	4,66	0+	K/β⁺ = 100
¹¹⁷Xe	61 s	6,44 (K/β⁺), 4,02 (Kp)	5/2(+)	K/β⁺ = 100, Kp = 0,0029
¹¹⁸Xe	3,8 min	2,9	0+	K/β⁺ = 100
¹¹⁹Xe	5,8 min	5,0	(5/2+)	K/β⁺ = 100
¹²⁰Xe	40 min	1,96	0+	K/β⁺ = 100
¹²¹Xe	40,1 min	3,73	5/2(+)	K/β⁺ = 100
¹²²Xe	20,1 h	0,89	0+	K = 100
¹²³Xe	2,08 h	2,676	(1/2) +	K/β⁺ = 100
¹²⁴Xe	> 4,8 × 10¹⁶ a		0+	KEC = 100	0,10
¹²⁵Xe	16,9 h	1,652	(1/2) +	K/β⁺ = 100
^125m1Xe	57 s	0,253	(9/2) -	IT = 100
¹²⁶Xe	stabil		0+		0,09
¹²⁷Xe	36,4 d	0,662	1/2+	K = 100
^127m1Xe	69,2 s	0,297	9/2−	IT = 100
¹²⁸Xe	stabil		0+		1,91
¹²⁹Xe	stabil		1/2+		26,4
^129m1Xe	8,88 d	0,236	11/2−	IT = 100
¹³⁰Xe	stabil		0+		4,1
¹³¹Xe	stabil		3/2+		21,2
^131m1Xe	11,84 d	0,164	11/2−	IT = 100
¹³²Xe	stabil		0+		26,9
^132m1Xe	8,39 ms	2,752	(10+)	IT = 100
¹³³Xe	5,243 d	0,427	3/2+	β⁻ = 100
^133m1Xe	2,19 d	0,233	11/2−	IT = 100
¹³⁴Xe	stabil		0+		10,4
^134m1Xe	290 ms	1,965	7−	IT = 100
¹³⁵Xe	9,14 h	1,151	3/2+	β⁻ = 100
^135m1Xe	15,29 min	0,527 (IT), 1,678 (β⁻)	11/2−	IT = 99,996, β⁻ = 0,004
¹³⁶Xe	> 10 × 10²¹ a		0+		8,9
¹³⁷Xe	3,818 min	4,172	7/2−	β⁻ = 100
¹³⁸Xe	14,08 min	2,770	0+	β⁻ = 100
¹³⁹Xe	39,68 s	5,057	3/2−	β⁻ = 100
¹⁴⁰Xe	13,60 s	4,06	0+	β⁻ = 100
¹⁴¹Xe	1,73 s	6,15 (β⁻), 0,67 (β⁻n)	5/2(−)	β⁻ = 100, β⁻n = 0,044
¹⁴²Xe	1,22 s	5,04 (β⁻)	0+	β⁻ = 100, β⁻n = 0,406
¹⁴³Xe	0,30 s	7,31 (β⁻)	5/2−	β⁻ = 100
¹⁴⁴Xe	1,15 s	6,1	0+	β⁻ = 100
¹⁴⁵Xe	0,9 s			β⁻ = 100, β⁻n = ?
¹⁴⁶Xe	146 ms		0+	β⁻ = 100
¹⁴⁷Xe	130 ms

Liste der Isotope