Izotopy pierwiastków siódmego okresu

Artykuł przedstawia listę znanych izotopów siódmego okresu układu okresowego pierwiastków.

Legenda

Procesy jądrowe
α	rozpad alfa (emisja jądra helu)
β⁻	rozpad beta minus (emisja elektronu)
β⁺	rozpad beta plus (emisja pozytonu)
ββ	podwójny rozpad beta (jednoczesna emisja dwóch elektronów)
k	wychwyt elektronu
kec	podwójny wychwyt elektronu
ij	izomer jądrowy
rs	spontaniczne rozszczepienie jądra atomowego
p	emisja protonu
n	emisja neutronu
xy	promieniotwórczość ciężkojonowa
Używane jednostki
s	sekunda
min	minuta
h	godzina
d	dni
a	lata
eV	elektronowolt
Przedrostki SI
m	mili, 10⁻³
μ	mikro, 10⁻⁶
n	nano, 10⁻⁹
p	piko, 10⁻¹²

87 Frans

Izotop	T_1/2	Energia rozpadu w MeV	Spin / Parzystość	Typ rozpadu (%)
²⁰⁰Fr	19 ms		(3+)	α = 100
^200m1Fr	0,57 s		(10−)	α = 100
²⁰¹Fr	48 ms	7,54 (α), 7,9 (K/β⁺)	(9/2−)	α < 100, K/β⁺ < 1
²⁰²Fr	0,34 s	7,389 (α), 9,4 (K/β⁺)	(3+)	α ≈ 97, K/β⁺ ≈ 3
^202m1Fr	0,34 s	7,491 (α), 9,502 (K/β⁺)	(10−)	α ≈ 97, K/β⁺ ≈ 3
²⁰³Fr	0,55 s	7,28 (α), 7,2 (K/β⁺)	(9/2−)	α ≈ 95, K/β⁺ ≈ 5
²⁰⁴Fr	1,7 s	7,17 (α), 8,6 (K/β⁺)	(3+)	α ≈ 80, K/β⁺ ≈ 20
^204m1Fr	2,6 s	7,211	(7+)	α = ?
^204m2Fr	1 s	7,486 (), 0,316 (IJ)	(10−)	α < 100, IJ < 1
²⁰⁵Fr	3,85 s	7,06 (α), 6,52 (K/β⁺)	(9/2−)	α > 99, K/β⁺ < 1
²⁰⁶Fr	15,9 s	6,926 (α), 7,75 (K/β⁺)	(5+)	α = 84, K/β⁺ = 16
^206m1Fr		6,926		α ≤ 84
^206m2Fr	0,7 s	7,576 (α), 0,65 (IJ)	(10−)	α = 0,3, IJ = ?
²⁰⁷Fr	14,8 s	6,9 (α), 5,71 (K/β⁺)	9/2−	α = 95, K/β⁺ = 5
²⁰⁸Fr	59,1 s	6,77 (α), 6,99 (K/β⁺)	7+	α = 90, K/β⁺ = 10
²⁰⁹Fr	50,0 s	6,777 (α), 5,16 (K/β⁺)	9/2−	α = 89, K/β⁺ = 11
²¹⁰Fr	3,18 min	6,7 (α), 6,262 (K/β⁺)	6+	α = 60, K/β⁺ = 40
²¹¹Fr	3,10 min	6,66 (α), 4,605 (K/β⁺)	9/2−	α > 80, K < 20
²¹²Fr	20,0 min	5,117 (K/β⁺), 6,529 (α)	5+	K/β⁺ = 57, α = 43
²¹³Fr	34,6 s	6,905 (α), 2,148 (K/β⁺)	9/2−	α = 99,45, K/β⁺ = 0,55
²¹⁴Fr	5,0 ms	8,589	(1−)	α = 100
^214m1Fr	3,35 ms	8,711	(8−)	α = 100
²¹⁵Fr	86 ns	9,540	9/2−	α = 100
^215m1Fr	3,5 ns		(23/2)-
²¹⁶Fr	0,70 µs	9,175 (α), 2,729 (K)	(1−)	α = 100, K < 2 × 10⁻⁷ sys
^216m1Fr	71 ns	0,086	(23/2)-	IJ = 100
²¹⁷Fr	22 µs	8,469	9/2−	α = 100
²¹⁸Fr	1,0 ms	8,014	1−	α = 100
^218m1Fr	22,0 ms	8,1 (α), 0,086 (IJ)		α < 100, IJ = ?
²¹⁹Fr	20 ms	7,449	9/2−	α = 100
²²⁰Fr	27,4 s	6,801 (α), 1,209 (β⁻)	1+	α = 99,65, β⁻ = 0,35
²²¹Fr	4,9 min	6,458 (α), 2,033 (β⁻)	5/2−	α = 100, ? = 8,8 × 10⁻¹¹
²²²Fr	14,2 min	2,033	2−	β⁻ = 100
²²³Fr	21,8 min	1,149 (β⁻), 5,43 (α)	3/2(−)	β⁻ = 99,994, α = 0,006
²²⁴Fr	3,33 min	2,83	1−	β⁻ = 100
²²⁵Fr	4,0 min	1,866	3/2−	β⁻ = 100
²²⁶Fr	49 s	3,67	1−	β⁻ = 100
²²⁷Fr	2,47 min	2,49	1/2+	β⁻ = 100
²²⁸Fr	38 s	4,34	2−	β⁻ = 100
²²⁹Fr	50 s		(1/2+)	β⁻ = 100
²³⁰Fr	19,1 s			β⁻ = 100
²³¹Fr	17,5 s		(1/2+)	β⁻ = 100
²³²Fr	5 s			β⁻ = 100

88 Rad

Izotop	T_1/2	Energia rozpadu w MeV	Spin / Parzystość	Typ rozpadu (%)
²⁰²Ra	0,7 ms		0+	α = 100
²⁰³Ra	1,0 ms		(3/2−)	α ≈ 100
^203m1Ra	33 ms		(13/2+)	α ≈ 100
²⁰⁴Ra	59 ms	7,65	0+	α ≈ 100
²⁰⁵Ra	210 ms	7,51 (α), 7,0 (K/β⁺)	(3/2−)	α = ?, K/β⁺ = ?
^205m1Ra	170 ms		(13/2+)	α = ?
²⁰⁶Ra	0,24 s	7,416	0+	α ≈ 100
²⁰⁷Ra	1,3 s	7,27 (α), 6,4 (K/β⁺)	(5/2,3/2)-	α ≈ 90, K/β⁺ ≈ 10
^207m1Ra	55 ms	0,47 (IJ), 7,74 (α), 6,87 (K/β⁺)	(13/2+)	IJ = 85 sysα = 15 sys K/β⁺ ≈ 0,55
²⁰⁸Ra	1,3 s	7,273 (α), 4,33 (K/β⁺)	0+	α = 95 sys K/β⁺ = 5 sys
²⁰⁹Ra	4,6 s		5/2−	α ≈ 90, K/β⁺ ≈ 10
²¹⁰Ra	3,7 s	7,157 (α), 3,77 (K/β⁺)	0+	α ≈ 96, K/β⁺ ≈ 4
²¹¹Ra	13 s	7,046 (α), 5,0 (K)	5/2(−)	α > 93, K < 7
²¹²Ra	13,0 s	6,859 (α), 3,35 (K/β⁺)	0+	α ≈ 85, K/β⁺ ≈ 15
²¹³Ra	2,74 min	6,859 (α), 3,88 (K/β⁺)	1/2−	α = 80, K/β⁺ = 20
^213m1Ra	2,1 ms	1,77 (IJ), 8,628 (α)		IJ ≈ 99, α ≈ 1
²¹⁴Ra	2,46 s	7,273 (α), 1,059 (K)	0+	α = 99,941, K = 0,059
²¹⁵Ra	1,59 ms	8,864	(9/2+)	α = 100
²¹⁶Ra	182 ns	9,526 (α), 0,308 (K)	0+	α = 100, K < 1 × 10⁻⁸
^216m1Ra	<0,2 ns	1,507 (IJ), 11,034 (α)	6+	α = 0,58
^216m2Ra	1,24 ns	1,711 (IJ), 11,237 (α)	8+	α = 1,86
^216m3Ra	0,6 ns	2,026 (IJ), 11,552 (α)	10+	α = 0,12
²¹⁷Ra	1,6 µs	9,161	(9/2+)	α = 100
²¹⁸Ra	25,6 µs	8,546	0+	α = 100
²¹⁹Ra	10 ms	8,130	(7/2)+	α = 100
²²⁰Ra	18 ms	7,595	0+	α = 100
²²¹Ra	28 s	6,886	5/2+	α = 100, ? = 1,2 × 10⁻¹⁰
²²²Ra	38,0 s	6,681	0+	α = 100, ¹⁴C = 3,0 × 10⁻⁸
²²³Ra	11,435 d	5,979	3/2+	α = 100, ¹⁴C = 6,4 × 10⁻⁸
²²⁴Ra	3,66 d	5,789	0+	α = 100, ¹⁴C = 4,3 × 10⁻⁹
²²⁵Ra	14,9 d	0,357	1/2+	β⁻ = 100
²²⁶Ra	1602 a	4,871 (α)	0+	α = 100, ¹⁴C = 3,2 × 10⁻⁹
²²⁷Ra	42,2 min	1,325	3/2+	β⁻ = 100
²²⁸Ra	5,75 a	0,046	0+	β⁻ = 100
²²⁹Ra	4,0 min	1,76	5/2(+)	β⁻ = 100
²³⁰Ra	93 min	0,99	0+	β⁻ = 100
²³¹Ra	103 s		(7/2−,1/2+)	β⁻ = 100
²³²Ra	250 s		0+	β⁻ = 100
²³³Ra	30 s		(1/2+)	β⁻ = 100
²³⁴Ra	30 s		0+	β⁻ = 100

89 Aktyn

Izotop	T_1/2	Energia rozpadu w MeV	Spin / Parzystość	Typ rozpadu (%)
²⁰⁶Ac	22 ms		(3+)	α = ?
^206m1Ac	33 ms		(10−)
²⁰⁷Ac	22 ms		(9/2−)	α ≈ 100
²⁰⁸Ac	95 ms		(3+)	α = ?
^208m1Ac	25 ms		(10−)	α = ?
²⁰⁹Ac	0,10 s	7,73 (α), 7,11 (K/β⁺)	(9/2−)	α ≈ 99, K/β⁺ ≈ 1
²¹⁰Ac	0,35 s	7,61 (α), 8,2 (K/β⁺)	7+	α ≈ 96, K/β⁺ ≈ 4
²¹¹Ac	0,25 s	7,62	(9/2-)	α ≈ 100
²¹²Ac	0,93 s	7,52 (α), 7,48 (K/β⁺)	6+	α ≈ 97, K/β⁺ ≈ 3
²¹³Ac	0,80 s	7,5	(9/2-)	α < 100
²¹⁴Ac	8,2 s	7,35 (α), 6,34 (K)	5+	α > 89, K < 11
²¹⁵Ac	0,17 s	7,75 (α), 3,49 (K/β⁺)	9/2−	α = 99,91, K/β⁺ = 0,09
²¹⁶Ac	0,33 ms	9,243	(1−)	α = 100
^216m1Ac	0,33 ms	0,037 (IJ), 9,28 (α)	(9−)	α ≤ 2
²¹⁷Ac	69 ns	9,832 (α), 2,819 (K/β⁺)	9/2−	α = 100, K/β⁺ < 2
^217m1Ac	740 ns		(29/2)+
²¹⁸Ac	1,08 µs	9,38	(1−)	α = 100
²¹⁹Ac	11,8 µs	8,83 (α)	9/2−	α = 100, K/β⁺ ≈ 1 × 10⁻⁶
²²⁰Ac	26,4 ms	8,35 (α), 3,48 (K/β⁺)	(3−)	α = 100, K/β⁺ = 5 × 10⁻⁴
²²¹Ac	52 ms	7,78	(3/2−)	α = 100
²²²Ac	5,0 s	7,137 (α), 2,298 (K/β⁺)	1−	α = 99, K/β⁺ = 1
^222m1Ac	63 s	7,137 (α), 0 (IJ), 2,298 (K/β⁺)		α > 88, IJ < 10, K/β⁺ < 0,7
²²³Ac	2,10 min	6,783 (α), 0,586 (K)	(5/2−)	α = 99, K = 1
²²⁴Ac	2,78 h	1,403 (K), 6,327 (α), 0,232 (β⁻)	0−	K = 90,9 +14−20, α = 9,1 +20−14, β⁻ < 1,6 sys
²²⁵Ac	10,0 d	5,935 (α)	(3/2−)	α = 100, ¹⁴C = 6,0 × 10⁻¹⁰
²²⁶Ac	29,37 h	1,117 (β⁻), 0,64 (K), 5,563 (α)	(1)	β⁻ = 83, K = 17, α = 6 × 10⁻³
²²⁷Ac	21,773 a	0,045 (β⁻), 5,042 (α)	3/2−	β⁻ = 98,620, α = 1,380
²²⁸Ac	6,15 h	2,127	3+	β⁻ = 100
²²⁹Ac	62,7 min	1,1	(3/2+)	β⁻ = 100
²³⁰Ac	122 s	2,7	(1+)	β⁻ = 100
²³¹Ac	7,5 min	2,1	(1/2+)	β⁻ = 100
²³²Ac	119 s	3,7	(1+)	β⁻ = 100
²³³Ac	145 s		(1/2+)	β⁻ = 100
²³⁴Ac	44 s			β⁻ = 100

90 Tor

Izotop	T_1/2	Energia rozpadu w MeV	Spin / Parzystość	Typ rozpadu (%)
²¹⁰Th	9 ms		0+	α ≈ 100
²¹¹Th	37 ms		(5/2-)	α = ?, K = ?
²¹²Th	30 ms	7,952 (α), 4,76 (K/β⁺)	0+	α = 100, K/β⁺ ≈ 0,3
²¹³Th	140 ms	7,84	(5/2-)	α < 100
²¹⁴Th	100 ms	7,826	0+	α = 100
²¹⁵Th	1,2 s	7,666	(1/2−)	α = 100
²¹⁶Th	0,028 s	8,071 (α), 2,17 (K/β⁺)	0+	α = 100, K/β⁺ ≈ 0,01 sys
^216m1Th	180 µs	2,028 (IJ), 10,099 (α)	(8+,11−)	IJ ≈ 97, α ≈ 3
²¹⁷Th	0,252 ms	9,424	(9/2+)	α = 100
²¹⁸Th	109 ns	9,849	0+	α = 100
²¹⁹Th	1,05 µs	9,51	(9/2+)	α = 100, K/β⁺ ≈ 1 × 10⁻⁷
²²⁰Th	9,7 µs	8,953 (α), 0,91 (K/β⁺)	0+	α = 100, K = 2 × 10⁻⁷ sys
²²¹Th	1,68 ms	8,628	(7/2+)	α = 100
²²²Th	2,8 ms	8,129	0+	α = 100
²²³Th	0,60 s	7,567	(5/2)+	α = 100
²²⁴Th	1,05 s	7,304	0+	α = 100
²²⁵Th	8,72 min	6,922 (α), 0,675 (K)	(3/2)+	α ≈ 90, K ≈ 10
²²⁶Th	30,57 min	6,451	0+	α = 100
²²⁷Th	18,72 d		(1/2+)	α = 100
²²⁸Th	1,9116 a	5,520 (α)	0+	α = 100, ²⁰O = 1,13 × 10⁻¹¹
²²⁹Th	7340 a	5,168	5/2+	α = 100
²³⁰Th	7,538 × 10⁴ a	4,770 (α)	0+	α = 100, ²⁴Ne = 5,6 × 10⁻¹¹, RS < 3,8 × 10⁻¹²
²³¹Th	25,52 h	0,389 (β⁻), 4,213 (α)	5/2+	β⁻ = 100, α ≈ 1 × 10⁻⁸
²³²Th	1,405 × 10¹⁰ a	4,083 (α)	0+	α = 100, RS < 1,8 × 10⁻⁹
²³³Th	22,3 min	1,245	1/2+	β⁻ = 100
²³⁴Th	24,10 d	0,273	0+	β⁻ = 100
²³⁵Th	7,1 min	1,93	(1/2+)	β⁻ = 100
²³⁶Th	37,5 min		0+	β⁻ = 100
²³⁷Th	5,0 min		(5/2+)	β⁻ = 100

91 Protaktyn

Izotop	T_1/2	Energia rozpadu w MeV	Spin / Parzystość	Typ rozpadu (%)
²¹²Pa	5,1 ms		(7+)	α = ?
²¹³Pa	5,3 ms		(9/2-)	α = ?
²¹⁴Pa	17 ms			α = ?
²¹⁵Pa	14 ms	8,17	(9/2-)	α = 100
²¹⁶Pa	0,20 s	8,10		K ≈ 2 sys α ≈ 98 sys
²¹⁷Pa	4,9 ms	8,49	(9/2-)	α = 100
^217m1Pa	1,6 ms	10,344		α < 100
²¹⁸Pa	0,12 ms	9,79		α = 100
²¹⁹Pa	53 ns	10,08	9/2−	α = 100, K/β⁺ ≈ 5 × 10⁻⁹
²²⁰Pa	0,78 µs	9,83 (α), 5,72 (K/β⁺)	1-	α = 100, K/β⁺ = 3 × 10⁻⁷ sys
²²¹Pa	5,9 µs	9,25	9/2−	α = 100
²²²Pa	2,9 ms	8,85		α = 100
²²³Pa	6,5 ms	8,34	(9/2-)	α = 100, K/β⁺ < 1,0 × 10⁻³
²²⁴Pa	0,79 s	7,694	5-	α = 100
²²⁵Pa	1,7 s	7,39	(5/2-)	α = 100
²²⁶Pa	1,8 min	6,987 (α), 2,834 (K/β⁺)		α = 74, K/β⁺ = 26
²²⁷Pa	38,3 min	6,580 (α), 1,019 (K)	(5/2−)	α = 85, K = 15
²²⁸Pa	22 h	2,148 (K/β⁺), 6,265 (α)	3+	K/β⁺ = 98,0, α = 2,0
²²⁹Pa	1,50 d	0,316 (K), 5,841 (α)	(5/2+)	K = 99,52, α = 0,48
²³⁰Pa	17,4 d	1,310 (K/β⁺), 0,563 (β⁻), 5,439 (α)	(2−)	K/β⁺ = 91,6, β⁻ = 8,4, α = 0,0032
²³¹Pa	32760 a	5,149 (α)	3/2−	α = 100, RS < 1,6 × 10⁻¹¹
²³²Pa	1,31 d	1,337 (β⁻), 0,495 (K)	(2−)	β⁻ = 99,997, K = 0,003
²³³Pa	26,967 d	0,571	3/2−	β⁻ = 100
²³⁴Pa	6,70 h	2,197	4+	β⁻ = 100, RS < 3 × 10⁻¹⁰
^234m1Pa	1,17 min	2,271 (β⁻), 0,074 (K)	(0−)	β⁻ = 99,84, IJ = 0,16, RS < 1 × 10⁻⁹
²³⁵Pa	24,5 min	1,41	(3/2−)	β⁻ = 100
²³⁶Pa	9,1 min	2,9	1(−)	β⁻ = 100
²³⁷Pa	8,7 min	2,25	(1/2+)	β⁻ = 100
²³⁸Pa	2,3 min	3,46 (β⁻)	(3−)	β⁻ = 100, RS < 2,6 × 10⁻⁶

92 Uran

Izotop	T_1/2	Energia rozpadu w MeV	Spin / Parzystość	Typ rozpadu (%)
²¹⁸U	1,5 ms	8,79	0+	α = 100
²¹⁹U	42 µs	9,9	(9/2+)	α = 100
²²⁰U	60 ns		0+
²²¹U	700 ns		(9/2+)
²²²U	1,0 µs	9,5	0+	α = 100
²²³U	18 µs	8,94	(7/2+)	α = ?
²²⁴U	0,9 ms	8,62	0+	α = 100
²²⁵U	95 ms	8,02	(5/2+)	α = 100
²²⁶U	0,35 s	7,715	0+	α = 100
²²⁷U	1,1 min	7,211 (α)	(3/2+)	α = 100, K/β⁺ < 0,001
²²⁸U	9,1 min	6,804 (α), 0,307 (K)	0+	α > 95, K < 5
²²⁹U	58 min	1,309 (K/β⁺), 6,475 (α)	(3/2+)	K/β⁺ ≈ 80, α ≈ 20
²³⁰U	20,8 d	5,993 (α)	0+	α = 100, RS < 1,4 × 10⁻¹⁰
²³¹U	4,2 d	0,36 (K), 5,55 (α)	(5/2−)	K = 100, α ≈ 0,0055
²³²U	68,9 a	5,414 (α)	0+	α = 100, ²⁴Ne = 9 × 10⁻¹¹
²³³U	1,592 × 10⁵ a	4,909 (α)	5/2+	α = 100, RS < 6 × 10⁻¹¹, ²⁴Ne < 9,5 × 10⁻¹¹
²³⁴U	2,455 × 10⁵ a	4,859 (α)	0+	α = 100, RS = 1,64 × 10⁻⁹, Ne = 9 × 10⁻¹², Mg = 1,4 × 10⁻¹¹
²³⁵U	7,038 × 10⁸ a	4,679 (α)	7/2−	α = 100, RS = 7,0 × 10⁻⁹, ²⁰Ne = 8 × 10⁻¹⁰
^235m1U	25 min	0	1/2+	IJ = 100
²³⁶U	2,342 × 10⁷ a	4,572 (α)	0+	α = 100, RS = 9,4 × 10⁻⁸
²³⁷U	6,75 d	0,519	1/2+	β⁻ = 100
²³⁸U	4,468 × 10⁹ a	4,270 (α)	0+	α = 100, RS = 5,45 × 10⁻⁵, ββ = 2,2 × 10⁻¹⁰
^238m1U	225 ns		0+
^238m2U	1 ns
²³⁹U	23,45 min	1,265	5/2+	β⁻ = 100
²⁴⁰U	14,1 h	0,338	0+	β⁻ = 100
²⁴¹U	5 min		(7/2+)	β⁻ ?
²⁴²U	16,8 min		0+	β⁻ = 100

93 Neptun

Izotop	T_1/2	Energia rozpadu w MeV	Spin / Parzystość	Typ rozpadu (%)
²²⁵Np	6 ms		(9/2-)	α = ?
²²⁶Np	35 ms	8,2		α = 100
²²⁷Np	0,51 s	7,816 (α)	(5/2-)	α = 100, K/β⁺ ≈ 0,05
²²⁸Np	61,4 s	4,48 (K), 7,42 (α)		K = 60, α = 40, KRS = 0,020
²²⁹Np	4,0 min	7,01 (α), 2,56 (K)	(5/2+)	α > 50, K < 50
²³⁰Np	4,6 min	3,61 (K/β⁺), 6,78 (α)		K/β⁺ < 97, α > 3
²³¹Np	48,8 min	1,84 (K), 6,37 (α)	(5/2)	K = 98, α = 2
²³²Np	14,7 min	2,70	(4+)	K/β⁺ = 100
²³³Np	36,2 min	1,23 (K), 5,83 (α)	(5/2+)	K = 100, α < 0,001
²³⁴Np	4,4 d	1,81	(0+)	K/β⁺ = 100
²³⁵Np	396,1 d	0,124 (K), 5,192 (α)	5/2+	K = 99,99740, α = 0,00260
²³⁶Np	1,54 × 10⁵ a	0,94 (K), 0,49 (β⁻), 5,02 (α)	(6−)	K = 87,3, β⁻ = 12,5, α = 0,16
^236m1Np	22,5 h	1,00 (K), 0,55 (β⁻)	1	K = 52, β⁻ = 48
²³⁷Np	2,144 × 10⁶ a	4,959 (α)	5/2+	α = 100, RS < 2 × 10⁻¹⁰
^237m1Np	45 ns			α = 100, RS ≤ 100
²³⁸Np	2,117 d	1,292	2+	β⁻ = 100
^238m1Np	112 ns
²³⁹Np	2,3565 d	0,722	5/2+	β⁻ = 100
²⁴⁰Np	61,9 min	2,20	(5+)	β⁻ = 100
^240m1Np	7,22 min	2,20 (β⁻), 0 (IJ)	1(+)	β⁻ = 99,89, IJ = 0,11
²⁴¹Np	13,9 min	1,31	(5/2+)	β⁻ = 100
²⁴²Np	5,5 min	2,70	(6)	β⁻ = 100
^242m1Np	2,2 min	2,70	(1+)	β⁻ = 100
²⁴³Np	1,8 min	2,17	(5/2−)	β⁻ = 100
²⁴⁴Np	2,29 min		(7−)	β⁻ = 100

94 Pluton

Izotop	T_1/2	Energia rozpadu w MeV	Spin / Parzystość	Typ rozpadu (%)
²²⁸Pu	4 ms	7,95	0+	α = 100
²²⁹Pu	90 s		(3/2+)	α = 100
²³⁰Pu	1,7 min	7,175 (α)	0+	α ≤ 100, K/β⁺ >= 0
²³¹Pu	8,6 min		(3/2+)	K/β⁺ = ?, α = ?
²³²Pu	34,1 min	1,06 (K/β⁺), 6,716 (α)	0+	K = 77, α = 23
²³³Pu	20,9 min	1,90 (K/β⁺), 6,42 (α)	(5/2+)	K/β⁺ = 99,88, α = 0,12
²³⁴Pu	8,8 h	0,388 (K/β⁺), 6,31 (α)	0+	K ≈ 94, α ≈ 6
^234m1Pu	3 ns
²³⁵Pu	25,3 min	1,17 (K/β⁺), 6,00 (α)	(5/2+)	K/β⁺ = 99,9973, α = 0,0027
^235m1Pu	25 ns
²³⁶Pu	2,858 a	5,867 (α)	0+	α = 100, RS = 1,37 × 10⁻⁷
^236m1Pu	37 × 10⁻¹² s (0+)
^236m2Pu	34 ns
²³⁷Pu	45,2 d	0,22 (K), 5,75 (α)	7/2−	K = 99,9958, α = 0,0042
^237m1Pu	0,18 s	0,146 (IJ)	1/2+	IJ = 100
^237m2Pu	85 ns			RS ≤ 100
^237m3Pu	1,1 µs			RS ≤ 100
²³⁸Pu	87,74 a	5,593 (α)	0+	α = 100, RS = 1,85 × 10⁻⁷, Mg ≈ 6 × 10⁻¹⁵, Si ≈ 1,4 × 10⁻¹⁴
^238m1Pu	0,6 ns			RS ≤ 100
^238m2Pu	6,0 ns		(0+)	RS ≤ 100
²³⁹Pu	24110 a	5,245 (α)	1/2+	α = 100, RS = 3,0 × 10⁻¹⁰
^239m1Pu	7,5 µs	(7/2-)	(5/2+)
^239m2Pu	2,6 ns		(9/2−)
²⁴⁰Pu	6563 a	5,256 (α)	0+	α = 100, RS = 5,75 × 10⁻⁶
^240m1Pu	3,7 ns		0+	RS > 0
²⁴¹Pu	14,35 a	0,021 (β⁻), 5,140 (α)	5/2+	β⁻ = 99,9975, α = 0,0025, RS ≈ 2,4 × 10⁻¹⁴
^241m1Pu	21 µs		(1/2+)	RS > 0
^241m2Pu	32 ns
²⁴²Pu	3,733 × 10⁵ a	4,984 (α)	0+	α = 100, RS = 5,54 × 10⁻⁴
²⁴³Pu	4,956 h	0,528	7/2+	β⁻ = 100
^243m1Pu	45 ns		(1/2+)
²⁴⁴Pu	8,08 × 10⁷ a	4,666 (α)	0+	α = 99,879, RS = 0,121, ββ<3 × 10⁻¹¹
^244m1Pu	400 ps		0+	RS ≤ 100
²⁴⁵Pu	10,5 h	1,205	(9/2−)	β⁻ = 100
^245m1Pu	90 ns
²⁴⁶Pu	10,84 d	0,401	0+	β⁻ = 100
²⁴⁷Pu	2,27 d		(1/2+)	β⁻ = 100

95 Ameryk

Izotop	T_1/2	Energia rozpadu w MeV	Spin / Parzystość	Typ rozpadu (%)
²³²Am	79 s	? (K), 7,2 (α)		K ≈ 98, α ≈ 2, KRS = 0,069
²³³Am		4,17 (K/β⁺), 6,87 (α)		K/β⁺ = 99,96, α = 0,04
²³⁴Am	2,32 min			K = 99,961, α = 0,039, KRS = 0,0066
²³⁵Am	15 min			K/β⁺ = ?, α = ?
²³⁶Am		3,28 (K), 6,45 (α)		K = ?, α = ?
²³⁷Am	73,0 min	1,73 (K), 6,25 (α)	5/2(−)	K = 99,975, α = 0,025
^237m1Am	5 ns			RS ≤ 100
²³⁸Am	98 min	2,26 (K/β⁺), 6,04 (α)	1+	K/β⁺ > 99,99, α = 1,0 × 10⁻⁴
^238m1Am	35 µs
²³⁹Am	11,9 h	0,803 (K), 5,924 (α)	(5/2)-	K = 99,990, α = 0,010
^239m1Am	163 ns		(7/2+)
²⁴⁰Am	50,8 h	1,379 (K), 5,710 (α)	(3−)	K = 100, α = 1,9 × 10⁻⁴
^240m1Am	0,924 ms			RS ≤ 100
²⁴¹Am	432,2 a	5,638 (α)	5/2−	α = 100, RS = 4,3 × 10⁻¹⁰
^241m1Am	1,2 µs
²⁴²Am	16,02 h	0,665 (β⁻), 0,751 (K)	1−	β⁻ = 82,7, K = 17,3
^242m1Am	141 a	0,049 (β⁻), 5,637 (α)	5−	IJ = 99,541, α = 0,459, RS < 4,7 × 10⁻⁹
^242m2Am	14,0 ms	2,20 (β⁻), 7,788 (α)		RS = ?, IJ = ?
²⁴³Am	7370 a	5,438 (α)	5/2−	α = 100, RS = 3,7 × 10⁻⁹
^243m1Am	5,5 µs
²⁴⁴Am	10,1 h	1,428 (β⁻)	(6−)	β⁻ = 100
^244m1Am	6,5 µs			RS ≤ 100
^244m2Am	26 min	1,516 (β⁻), 0,164 (K)	1+	β⁻ = 99,9639, K = 0,0361
²⁴⁵Am	2,05 h	0,894	(5/2)+	β⁻ = 100
^245m1Am	0,64 µs
²⁴⁶Am	39 min	2,376	(7−)	β⁻ = 100
^246m1Am	25,0 min	2,376 (β⁻), 0 (IJ)	2(−)	β⁻ = 100, IJ < 0,01
^246m2Am	73 µs
²⁴⁷Am	23,0 min	1,7	(5/2)	β⁻ = 100
²⁴⁸Am		3,1	(5/2)	β⁻ = 100

96 Kiur

Izotop	T_1/2	Energia rozpadu w MeV	Spin / Parzystość	Typ rozpadu (%)
²³³Cm	1 min		3/2+
²³⁴Cm	51 s		0+	β⁺ = 47#; RS = 3
²³⁵Cm	5 min		5/2+
^235pCm
²³⁶Cm	10 min	1,71 (K/β⁺), 7,1 (α)	0+	K/β⁺ = ?, α = ?
²³⁷Cm	20 min		5/2+	α = ?
^237pCm			7/2−
²³⁸Cm	2,4 h	0,97 (K), 6,62 (α)	0+	K = 96,16, α = 3,84
²³⁹Cm	2,9 h	1,7 (K), 6,46 (α)	(7/2−)	K = 100, α < 0,1
²⁴⁰Cm	27 d	6,397 (α), 0,215 (K)	0+	α > 99,5, K < 0,5, RS = 3,9 × 10⁻⁶
^240m1Cm	10 ps			RS ≤ 100
^240m1Cm	55 ns			RS ≈ 100
²⁴¹Cm	32,8 d	0,767 (K), 6,185 (α)	1/2+	K = 99,0, α = 1,0
^241m1Cm	15,3 ns
²⁴²Cm	162,8 d	6,216 (α)	0+	α = 100, RS = 6,37 × 10⁻⁶
^242m1Cm	40 × 10⁻¹² s
^242m2Cm	0,18 µs	2,80 (IJ)		IJ = ?, RS = ?
²⁴³Cm	29,1 a	6,196 (α), 0,009 (K)	5/2+	α = 99,71, K = 0,29, RS = 5,3 × 10⁻⁹
^243m1Cm	42 ns
²⁴⁴Cm	18,10 a	5,902 (α)	0+	α = 100, RS = 1,371 × 10⁻⁴
^244m1Cm	34 ms	1,04 (IJ)	6+	IJ = 100, RS < 7,7 × 10⁻¹⁰
²⁴⁵Cm	8500 a	5,623 (α)	7/2+	α = 100, RS = 6,1 × 10⁻⁷
^245m1Cm	13,2 ns
²⁴⁶Cm	4730 a	5,475 (α)	0+	α = 99,9737, RS = 0,0263
²⁴⁷Cm	1,56 × 10⁷ a	5,353	9/2−	α = 100
²⁴⁸Cm	3,40 × 10⁵ a	5,162 (α)	0+	α = 91,61, RS = 8,39
²⁴⁹Cm	64,15 min		1/2(+)	β⁻ = 100
²⁵⁰Cm	9000 a	5,169 (α), 0,90 (β⁻)	0+	RS ≈ 86, α ≈ 8, β⁻ ≈ 6
²⁵¹Cm	16,8 min	1,42	(1/2+)	β⁻ = 100
²⁵²Cm	2 d		0+	β⁻ = 100

97 Berkel

Izotop	T_1/2	Energia rozpadu w MeV	Spin / Parzystość	Typ rozpadu (%)
²³⁵Bk	20 s			β⁺ = ? α = ?
²³⁶Bk	1 min			β⁺ = ? α = ?
²³⁷Bk	1 min		(7/2+)	β⁺ = ? α = ?
^237pBk			(3/2-)	β⁺ = ? α = ?
²³⁸Bk	144 s	5,0 (K/β⁺)		K/β⁺ = 100, KRS = 0,048
²³⁹Bk	3 min		(7/2+)	β⁺ = 100,
²⁴⁰Bk	4,8 min	3,94 (K/β⁺)		K/β⁺ = 100, KRS = 1 × 10⁻³ sys
²⁴¹Bk	4, 6 min		(7/2+)
^241pBk			3/2-
²⁴²Bk	7,0 min	3,0 (K/β⁺)	2-	K/β⁺ < 100, RS > 0
^242m1Bk	9,5 ns
^242m2Bk	0,60 µs
²⁴³Bk	4,5 h	1,508 (K), 6,874 (α)	(3/2−)	K ≈ 99,85, α ≈ 0,15
^243m1Bk	5 ns
²⁴⁴Bk	4,35 h	2,26 (K), 6,78 (α)	(1−)	K = 99,994, α = 0,006
^244m1Bk	820 ns			RS ≤ 100
²⁴⁵Bk	4,94 d	0,81 (K), 6,455 (α)	3/2−	K = 99,88, α = 0,12
^245m1Bk	2 ns
²⁴⁶Bk	1,80 d	1,35 (K), 6,07 (α)	2(−)	K = 100, α < 0,2 sys
²⁴⁷Bk	1380 a	5,889	(3/2−)	α < 100
²⁴⁸Bk	9 a	5,803	(6+)	α > 70
^248m1Bk	23,7 h	0,87 (β⁻), 0,717 (K), 5,803 (α)	1(−)	β⁻ = 70, K = 30, α < 0,001
²⁴⁹Bk	320 d	0,125 (β⁻), 5,526 (α)	7/2+	β⁻ = 99,99855, α = 0,00145, RS = 4,76 × 10⁻⁸
²⁵⁰Bk	3,217 h	1,78	2−	β⁻ = 100
²⁵¹Bk	55,6 min	1,093 (β⁻), 5,57 (α)	(3/2−)	β⁻ = 100, α ≈ 1 × 10⁻⁵

98 Kaliforn

Izotop	T_1/2	Energia rozpadu w MeV	Spin / Parzystość	Typ rozpadu (%)
²³⁷Cf	2,1 s		(5/2+)	RS ≈ 10 sys
²³⁸Cf	21 ms		0+	RS ≈ 100 sys
²³⁹Cf	39 s	7,81 (α), 3,9 (K)	(5/2+)	α > 50, K < 50
²⁴⁰Cf	1,06 min	7,719 (α)	0+	α = 87, RS ≈ 13
²⁴¹Cf	3,78 min	3,3 (K), 7,66 (α)	(7/2-)	K ≈ 75, α ≈ 25
^241pCf			(1/2+)
²⁴²Cf	3,49 min	7,516 (α)	0+	α = 65, RS < 1,4 × 10⁻²
²⁴³Cf	10,7 min	2,22 (K), 7,39 (α)	(1/2+)	K ≈ 86, α ≈ 14
²⁴⁴Cf	19,4 min	7,329	0+	α = 70
²⁴⁵Cf	45,0 min	1,569 (K), 7,256 (α)	(5/2+)	K = 64, α = 36
^245pCf			(7/2+)
²⁴⁶Cf	35,7 h	6,862 (α), 0,12 (K)	0+	α = 99,9996, RS = 2,3 × 10⁻⁴, K < 5 × 10⁻⁴
²⁴⁷Cf	3,11 h	0,646 (K), 6,527 (α)	(7/2+)	K = 99,965, α = 0,035
²⁴⁸Cf	333,5 d	6,361 (α)	0+	α = 99,9971, RS = 0,0029
²⁴⁹Cf	351 a	6,295 (α)	9/2−	α = 100, RS = 4,4 × 10⁻⁷
²⁵⁰Cf	13,08 a	6,176 (α)	0+	α = 99,923, RS = 0,077
²⁵¹Cf	898 a	6,176 (α)	1/2+	α = 100
²⁵²Cf	2,645 a	6,217 (α)	0+	α = 96,908, RS = 3,092
²⁵³Cf	17,81 d	0,285 (β⁻), 6,124 (α)	(7/2+)	β⁻ = 99,69, α = 0,31
²⁵⁴Cf	60,5 d	5,926 (α)	0+	RS = 99,69, α = 0,31
²⁵⁵Cf	85 min	0,7	(9/2+)	β⁻ = 100
²⁵⁶Cf	12,3 min	5,6 (α)	0+	RS = 100, β⁻ < 1 sys α ≈ 1 × 10⁻⁶ sys

99 Einstein

Izotop	T_1/2	Energia rozpadu w MeV	Spin / Parzystość	Typ rozpadu (%)
²⁴¹Es	10 s		(3/2-)	α = 100
^241pEs			(7/2+)
²⁴²Es	40 s	5,6 (K)		α ≈ 100, KRS = 1,4
²⁴³Es	21 s	4,0 (K), 8,072 (α)	(3/2-)	K < 70, α > 30
²⁴⁴Es	37 s	4,56 (K), 7,95 (α)		K = 96, α = 4, KRS = 0,01 sys
²⁴⁵Es	1,1 min	3,05 (K), 7,909 (α)	(3/2−)	K = 60, α = 40
²⁴⁶Es	7,7 min	3,88 (K), 7,74 (α)	(4−,6+)	K = 90,1, α = 9,9, KRS = 0,003 sys
²⁴⁷Es	4,55 min	2,48 (K), 7,49 (α)	(7/2+)	K ≈ 93, α ≈ 7
²⁴⁸Es	27 min		(2−,0+)	K > 99, α ≈ 0,25, KRS = 3 × 10⁻⁵ sys
²⁴⁹Es	102,2 min	1,45 (K), 6,94 (α)	7/2(+)	K = 99,43, α = 0,57
²⁵⁰Es	8,6 h	2,10 (K), 6,88 (α)	(6+)	K > 97, α < 3 sys
^250m1Es	2,22 h	2,10 (K), 6,88 (α)	1(−)	K > 99, α < 1 sys
²⁵¹Es	33 h	0,376 (K), 6,597 (α)	(3/2−)	K = 99,51, α = 0,49
²⁵²Es	471,7 d	6,76 (α), 1,26 (K), 0,48 (β⁻)	(5−)	α = 76, K = 24, β⁻ ≈ 0,01
²⁵³Es	20,47 d	6,739 (α)	7/2+	α = 100, RS = 8,9 × 10⁻⁶
²⁵⁴Es	275,7 d	6,628 (α), 0,654 (K), 1,09 (β⁻)	(7+)	α = 100, K < 1 × 10⁻⁴, β⁻ = 1,74 × 10⁻⁶, RS < 3 × 10⁻⁶
^254m1Es	39,3 h	1,168 (β⁻), 0,078 (IJ), 6,696 (α), 0,732 (K)	2+	β⁻ = 98, α = 0,33, IJ < 3, K = 0,078, RS < 0,045
²⁵⁵Es	39,8 d	0,288 (β⁻), 6,436 (α)	(7/2+)	β⁻ = 92,0, α = 8,0, RS = 0,0045
²⁵⁶Es	25,4 min	1,67	(1+)	β⁻ = 100
^256m1Es	7,6 h	1,67 (β⁻)	(8+)	β⁻ ≈ 100, RS = 0,002
²⁵⁷Es	7,8 d		(7/2+)	sf, β⁻ ?
²⁵⁸Es	3 min			α, β⁻ ?

100 Ferm

Izotop	T_1/2	Energia rozpadu w MeV	Spin / Parzystość	Typ rozpadu (%)
²⁴²Fm	0,8 ms		0+	RS = 100
²⁴³Fm	0,18 s	8,69 (α)	(7/2-)	α < 100, RS < 0,5, K = ?
²⁴⁴Fm	3,3 ms		0+	RS = 100
²⁴⁵Fm	4,2 s	8,44 (α)	(1/2+)	α = 100, RS < 0,11
²⁴⁶Fm	1,1 s	8,374 (α), 2,16 (K)	0+	α = 92, RS = 7,3, K < 1 sys
²⁴⁷Fm	35 s	8,19 (α)	(5/2+)	α > 50, K/β⁺ < 50
^247mFm	9,2 s			α < 100
^247pFm			(7/2+)	α < 100
^247qFm
²⁴⁸Fm	36 s	8,002 (α), 1,6 (K)	0+	α = 93, K ≈ 7, RS = 0,10
²⁴⁹Fm	2,6 min	2,44 (K), 7,81 (α)	(7/2+)	K ≈ 85 sys α ≈ 15 sys
²⁵⁰Fm	30 min	7,557 (α), 0,8 (K)	0+	α > 90, K < 10, RS = 0,0069
^250m1Fm	1,8 s	1,0 (IJ)	(7,8)	IJ > 80, RS < 8 × 10⁻⁵
²⁵¹Fm	5,30 h	1,474 (K), 7,425 (α)	(9/2−)	K = 98,20, α = 1,80
^251mFm	15,2 μs		(5/2+)	IJ = 100
²⁵²Fm	25,39 h	7,153 (α)	0+	α = 99,9977, RS = 0,00232
²⁵³Fm	3,00 d	0,333 (K), 7,197 (α)	1/2+	K = 88, α = 12
²⁵⁴Fm	3,240 h	7,307 (α)	0+	α = 99,9408, RS = 0,0592
²⁵⁵Fm	20,07 h	7,241 (α)	7/2+	α = 100, RS = 2,3 × 10⁻⁵
^255pFm			(9/2+)
²⁵⁶Fm	157,6 min	7,027 (α)	0+	RS = 91,9, α = 8,1
^256m1Fm	70 ns			IJ > 80, RS = ?
²⁵⁷Fm	100,5 d	6,864 (α)	(9/2+)	α = 99,790, RS = 0,210
²⁵⁸Fm	370 µs		0+	RS = 100
²⁵⁹Fm	1,5 s		(3/2+)	RS = 100
²⁶⁰Fm	4 ms		0+	RS = 100

101 Mendelew

Izotop	T_1/2	Energia rozpadu w MeV	Spin / Parzystość	Typ rozpadu (%)
²⁴⁵Md	0,35 s		(7/2+)	α = 100
^245m1Md	0,90 ms		(1/2−)
²⁴⁶Md	1,0 s			α = 100
^246mMd	1,0 s			α = 100
²⁴⁷Md	270 ms	8,82 (α)	(1/2-)	α = 80, RS = 20
^247mMd	1,12 s		(7/2+)	α = 80, RS = 20
²⁴⁸Md	7 s	5,25 (K), 8,7 (α)		K = 80, α = 20, RS < 0,05
^248pMd
²⁴⁹Md	24 s	3,7 (K), 8,46 (α)	(7/2-)	K = 80, α = 20
²⁵⁰Md	52 s	4,6 (K), 8,31 (α)		K = 93, α = 7, KRS = 0,02 sys
²⁵¹Md	4,0 min	3,07 (K), 8,02 (α)	(7/2-)	K > 90, α < 10
²⁵²Md	2,3 min	3,89 (K)		K > 50, α < 50
²⁵³Md	6 min	1,96	(7/2-)	K β⁺ = 100
²⁵⁴Md	10 min	2,68	0-	K < 100
^254m1Md	28 min		(3-)	K < 100
²⁵⁵Md	27 min	1,043 (K), 7,907 (α)	(7/2−)	K = 92, α = 8, RS < 1,4
²⁵⁶Md	78,1 min	2,13 (K), 7,897 (α)	(1−)	K = 90,7, α = 9,3, RS < 2,8
²⁵⁷Md	5,52 h	0,406 (K), 7,271 (α)	(7/2−)	K = 85, α = 15, RS < 1
²⁵⁸Md	51,5 d	7,271 (α), 1,23 (K)	(8−)	α = 100, RS < 0,003, β⁻ < 0,003, K < 0,003
^258m1Md	57,0 min	1,23 (K), 7,271 (α)	(1−)	K > 70, RS < 30, α < 1,2, β⁻ < 30
²⁵⁹Md	96 min	7,1 (α)	(7/2−)	RS ≈ 100, α < 1,3
²⁶⁰Md	27,8 d	7,0 (α), 1,0 (β⁻)		RS > 73, α < 25, β⁻ < 10
²⁶¹Md	40 min		(7/2-)	α = ?
²⁶²Md	3 min			RS = ? α = ?

102 Nobel

Izotop	T_1/2	Energia rozpadu w MeV	Spin / Parzystość	Typ rozpadu (%)
²⁵⁰No	0,25 ms	9,0 (α)	0+	RS = 100, α ≈ 0,05 sys
²⁵¹No	760 ms	8,89 (α), 3,78 (K)	(7/2+)	α ≈ 100, K ≈ 1 sys, RS < 8
^251mNo	1,7 s		(9/2+-)	α = 100
²⁵²No	2,30 s	8,549 (α)	0+	α = 73,1, RS = 26,9
²⁵³No	1,7 min	8,44 (α), 3,2 (K)	(9/2−)	α ≈ 80, K ≈ 20 sys
²⁵⁴No	55 s	8,226 (α), 1,14 (K)	0+	α = 90, K = 10, RS = 0,17
^254m1No	0,28 s	0,50 (IJ)		IJ > 80
²⁵⁵No	3,1 min	8,445 (α), 2,012 (K)	(1/2+)	α = 61,4, K = 38,6
²⁵⁶No	2,91 s	8,581 (α)	0+	α = 99,5, RS = 0,53 $_{-4}^{+8}$
²⁵⁷No	25 s	8,45 (α)	(7/2+)	α ≈ 100
²⁵⁸No	1,2 ms	8,2 (α)	0+	RS = 100, α ≈ 1 × 10⁻³ sys
²⁵⁹No	58 min	7,91 (α), 0,5 (K)	(9/2+)	α = 75, K = 25, RS < 10
²⁶⁰No	106 ms		0+	RS = 100
²⁶¹No	3 h		(3/2+)
²⁶²No	5 ms		0+	RS = ?
²⁶³No	20 min			RS = ? α = ?
²⁶⁴No	1 min		0+	RS = ? α = ?

103 Lorens

Izotop	T_1/2	Energia rozpadu w MeV	Spin / Parzystość	Typ rozpadu (%)
²⁵²Lr	0,4 s	9,15		α ≈ 100
²⁵³Lr	0,6 s	8,99 (α)	(7/2-)	α > 80, RS < 20
^253mLr	1,5 s	8,99 (α), 4,3 (K)	(1/2-)	α = 98, K ≈ 1 sys, RS < 1
²⁵⁴Lr	13 s	8,75 (α), 5,2 (K)		α = 78, K = 22, RS < 0,16
²⁵⁵Lr	22 s	8,62 (α), 3,24 (K)	(7/2-)	α = 85, K < 30, RS < 0,10
²⁵⁶Lr	28 s	8,88 (α), 4,19 (K)		α > 80, K < 20, RS < 0,026
²⁵⁷Lr	0,646 s	9,01 (α)	(9/2+)	α = 100, RS < 6,5 × 10⁻⁴
²⁵⁸Lr	3,9 s	8,90 (α), 3,38 (K)		α > 95, K < 5, RS < 5
²⁵⁹Lr	6,3 s	8,67 (α), 1,81 (K)	(9/2+)	α = 77, RS = 23, K < 0,5
²⁶⁰Lr	3 min	8,31 (α), 2,74 (K)		α = 75, K = 25
²⁶¹Lr	39 min			RS < 100
²⁶²Lr	216 min	2,1 (K)		K > 10, RS < 10
²⁶³Lr	5 h			α = ?
²⁶⁴Lr	10 h			α = ? RS = ?
²⁶⁵Lr	10 h			α = ? RS = ?
²⁶⁶Lr	1 h			α = ? RS = ?

104 Rutherford

Izotop	T_1/2	Energia rozpadu w MeV	Spin / Parzystość	Typ rozpadu (%)
²⁵³Rf	1,8 s	9,5 (α)	(7/2+)	RS ≈ 50, α ≈ 50
^253mRf	52 µs		(1/2-)	RS ≈ 100
²⁵⁴Rf	0,5 ms	9,3 (α)	0+	RS = 100, α ≈ 0,3 sys
^254mRf	22,3 µs			RS ≈ 100
²⁵⁵Rf	1,5 s	9,3 (α)	(9/2−)	RS = 52, α = 48
²⁵⁶Rf	6,7 ms	8,952 (α)	0+	RS = 98 $_{-7}^{+2},$ α = 2,2 $_{-18}^{+73}$
²⁵⁷Rf	4,7 s	9,25 (α), 3,4 (K)	(7/2+)	α = 79,6, K = 18, RS = 2,4
²⁵⁸Rf	12 ms	9,25 (α)	0+	RS ≈ 87, α ≈ 13
²⁵⁹Rf	3,1 s	9,11 (α)	7/2+	α = 93, RS = 7, K ≈ 0,3
^259pRf			(3/2+)
^259qRf			(9/2+)
²⁶⁰Rf	21 ms	9,00 (α), 2,45 (K)	0+	RS = 100
²⁶¹Rf	4,2 s	8,81 (α), 1,8 (K)	3/2+	α > 80, RS < 10, K < 10 sys
^261mRf	81 s		(9/2+)	α ≈ 100
^261pRf			(3/2+)
²⁶²Rf	2,1 s		0+	RS = 100
^262mRf	47 ms		[2+]	RS = 100
²⁶³Rf	15 min		(3/2+)	RS = 100
²⁶⁴Rf	1 h		0+	α = ?
²⁶⁵Rf	13 h		(3/2+)	α = ?
²⁶⁶Rf	10 h		0+	α = ?
²⁶⁷Rf	5 h			RS = 100
²⁶⁸Rf	1 h		0+	RS = 100

105 Dubn

Izotop	T_1/2	Energia rozpadu w MeV	Spin / Parzystość	Typ rozpadu (%)
²⁵⁵Db	1,6 s	9,6 (α)		α > 47, RS < 53
²⁵⁶Db	2,6 s	9,5 (α)		RS < 40, α ≈ 70, K ≈ 10 sys
²⁵⁷Db	1,3 s	9,31 (α), 4,3 (K)	(9/2+)	α = 82, RS = 17, K = 1 sys
^257m1Db	0,8 s		(1/2-)	α ≈ 100
²⁵⁸Db	4,4 s	9,55 (α), 5,5 (K)		α = 67 $_{-6}^{+5},$ K = 33 $_{-5}^{+9},$ RS < 34
^258m1Db	20 s			K ≈ 100
²⁵⁹Db	0,51 s			α ≈ 100
²⁶⁰Db	1,52 s	9,37 (α), 4,6 (K)		α > 90,4, RS ≈ 9,6, K < 2,5
²⁶¹Db	1,8 s	9,27 (α)		α > 50, RS < 50
²⁶²Db	34 s	9,21 (α), 4,0 (K)		α ≈ 64, RS ≈ 33, K ≈ 3 sys
²⁶³Db	27 s	9,03 (α)		RS = 57, α = 43
²⁶⁷Db	1,2 h			RS ≈ 100
²⁶⁸Db	16 h			RS ≈ 100

106 Seaborg

Izotop	T_1/2	Energia rozpadu w MeV	Spin / Parzystość	Typ rozpadu (%)
²⁵⁸Sg	2,9 ms		0+	RS = 100
²⁵⁹Sg	0,48 s	9,87 (α)	(1/2+)	α = 90, RS < 20
²⁶⁰Sg	3,6 ms	9,92 (α)	0+	α = 50 $_{-20}^{+30},$ RS = 50 $_{-30}^{+20}$
²⁶¹Sg	0,23 s	9,81 (α)		α = 95, RS < 10
²⁶²Sg	6,9 ms		0+	RS = 100
²⁶³Sg	0,8 s	9,59 (α)		RS ≈ 70, α ≈ 30
^263m1Sg	0,31 s		[9/2+]	α ≈ 100
²⁶⁴Sg			0+
²⁶⁵Sg	10 s	9,2 (α)	[1/2+]	α > 50, RS < 50
²⁶⁶Sg	21 s	9,1 (α)	0+	α = 50, RS = 50
²⁷¹Sg	2,4 min			α > 50, RS < 50

107 Bohr

Izotop	T_1/2	Energia rozpadu w MeV	Typ rozpadu (%)
²⁶⁰Bh		10,0	α = ?
²⁶¹Bh	11,8 ms	10,56 (α)	α = 95, RS < 10
²⁶²Bh	102 ms	10,42 (α)	α > 80, RS < 20
^262m1Bh	8,0 ms		α > 70, RS < 30
²⁶³Bh
²⁶⁴Bh	0,44 s		α = 100
²⁶⁵Bh	0,94 (-0,31 … + 0,70) s	9,24 +/-0,05	α = 100
²⁶⁶Bh	1,7 s		α = 100
²⁶⁷Bh	17 s		α = 100
²⁷¹Bh			α = 100
²⁷²Bh	9,8 s		α = 100

108 Has

Izotop	T_1/2	Energia rozpadu w MeV	Spin / Parzystość	Typ rozpadu (%)
²⁶³Hs	<1 s		7/2+	α = ?
²⁶⁴Hs	0,26 ms	10,8 (α)	0+	α ≈ 100, RS < 1,5
²⁶⁵Hs	0,9 ms	10,82		α ≈ 100
^265m1Hs	1,55 ms		[1/2+]	α ≈ 100, RS < 9
²⁶⁶Hs	2,3 ms		0+	α = 100
²⁶⁷Hs	59 ms		[9/2+]	α = 100
²⁶⁸Hs			0+
²⁶⁹Hs	9,7 s		[3/2+]	α = 100
²⁷⁰Hs	2,4 s		0+	α = 100 (?)
²⁷⁵Hs	0,19 s			α = 100
²⁷⁷Hs	16,5 min			α > 50, RS < 50
²⁷⁸Hs	11 min		0+	RS = 100

109 Meitner

Izotop	T_1/2	Energia rozpadu w MeV	Spin / Parzystość	Typ rozpadu (%)
²⁶⁶Mt	1,7 ms	11,269 (α)		α = 100
^266m1Mt	3,8 ms			α = 100, RS < 5,5
²⁶⁷Mt
²⁶⁸Mt	0,07 s		[5+,6+]	α = 100
²⁷⁰Mt	5,0 ms			α = 100
²⁷⁵Mt	9,7 ms			α = 100
²⁷⁶Mt	0,72 s			α = 100

110 Darmsztadt

Izotop	T_1/2	Spin / Parzystość	Typ rozpadu (%)
²⁶⁷Ds	3,1 µs	[11/2−]	α = 100
²⁶⁸Ds		0+
²⁶⁹Ds	0,17 ms	[1/2+]	α = 100
²⁷⁰Ds	6,0 ms	0+	α = 100
^270m1Ds	0,1 ms		α = 100
²⁷¹Ds	56 ms	[3/2+]	α = 100
^271m1Ds	1,1 ms	[9/2+]	α = 100
²⁷²Ds		0+
²⁷³Ds	0,17 ms	[3/2+]	α = 100
^273m1Ds	120 ms	[13/2−]	α = 100
²⁷⁹Ds	0,18 s		RS > 70, α < 30
²⁸⁰Ds	7,6 s	0+
²⁸¹Ds	9,6 s		RS = 100
²⁸²Ds	1,1 min	0+	α = 100

111 Roentgen

Izotop	T_1/2	Spin / Parzystość	Typ rozpadu (%)
²⁷²Rg	1,5 ms	[5+,6+]	α = 100
²⁷⁴Rg	6,4 ms		α = 100
²⁷⁸Rg	1,5 ms
²⁷⁹Rg	170 ms		α = 100
²⁸⁰Rg	3,6 s		α = 100

112 Kopernik

Izotop	T_1/2	Spin / Parzystość	Typ rozpadu (%)
²⁷⁷Cn	0,7 ms	[3/2+]	α = 100
²⁸²Cn	0,88 ms	0+	RS = 100
²⁸³Cn	3,8 s		α > 80, RS < 20
²⁸⁴Cn	101 ms	0+	RS = 100
²⁸⁵Cn	34 s		α = 100
²⁸⁶Cn	11 min	0+	α = 100

113 Nihon

Izotop	T_1/2	Typ rozpadu (%)
²⁷⁸Nh	0,24 ms	α = 100
²⁸³Nh	0,147 s	α = 100
²⁸⁴Nh	0,48 s	α = 100

114 Flerow

Izotop	T_1/2	Spin / Parzystość	Typ rozpadu (%)
²⁸⁵Fl	0,58 ms		α = ?
²⁸⁶Fl	0,16 s	0+	α ≈ 40, RS ≈ 60
²⁸⁷Fl	5,1 s		α = 100
²⁸⁸Fl	0,8 s	0+	α = 100
²⁸⁹Fl	2,7 s		α = 100
²⁹⁰Fl	21 s	0+	α = 100

115 Moskow

Izotop	T_1/2	Energia rozpadu w MeV	Spin / Parzystość	Typ rozpadu (%)
²⁸⁷Mc	35 ms			α = 100
²⁸⁸Mc	87 ms			α = 100

116 Liwermor

Izotop	T_1/2	Spin / Parzystość	Typ rozpadu (%)
²⁹⁰Lv	14,4 ms	0+	α = 100
²⁹¹Lv	6,3 ms		α = 100
²⁹²Lv	18 ms	0+	α = 100
²⁹³Lv	61 ms		α = 100

117 Tenes

Izotop	T_1/2	Energia rozpadu w MeV	Spin / Parzystość	Typ rozpadu (%)
²⁹³Ts	14⁺¹¹₋₄ ms			α = 100
²⁹⁴Ts	78⁺³⁷⁰₋₃₆ ms			α = 100

118 Oganeson

Izotop	T_1/2	Energia rozpadu w MeV	Spin / Parzystość	Typ rozpadu (%)
²⁹⁴Og	0,89 ms $_{-0{,}31}^{+1{,}07}$ ms	11,65±0,06	0+	α = 100

Bibliografia

The Nubase2003 evaluation of nuclear and decay properties appeared in Nuclear Physics. amdc.in2p3.fr. [zarchiwizowane z tego adresu (2005-05-31)].