Medical Portal

Medical Radioisotopes Production

Loading Live Chart ...

Show only

Decay data of nuclides denoted by green band were evaluated within IAEA CRPs.

Nuclide

Half-life

Decay %

Emission

Target

Reaction

Product

MIRD

Production Yield

11
6

5

20.364 min 14

ec β+	100
(β+	≈ 99.8)

e⁺

14
7

7

¹⁴N(p,α)¹¹C

11
6

5

13
7

6

9.965 min 4

ec β+	100
(β+	≈ 99.8)

e⁺

16
8

8

¹⁶O(p,α)¹³N

13
7

6

15
8

7

122.24 s 16

ec β+	100
(β+	≈ 99.9)

e⁺

15
7

8

¹⁵N(p,n)¹⁵O

15
8

7

14
7

7

¹⁴N(d,n)¹⁵O

15
8

7

18
9

9

109.77 min 5

ec β+	100
(β+	≈ 96.7)

e⁺

^natNe

^natNe(d,x)¹⁸F

18
9

9

18
8

10

¹⁸O(p,n)¹⁸F

18
9

9

22
11

11

2.6018 y 22

ec β+	100
(β+	≈ 90.0)

27
13

14

²⁷Al(p,x)²²Na

22
11

11

27
13

14

²⁷Al(³He,x)²²Na

22
11

11

27
13

14

²⁷Al(d,x)²²Na

22
11

11

27
13

14

²⁷Al(α,x)²²Na

22
11

11

24
11

13

14.956 h 3

β-

100

27
13

14

²⁷Al(³He,x)²⁴Na

24
11

13

27
13

14

²⁷Al(d,x)²⁴Na

24
11

13

27
13

14

²⁷Al(α,x)²⁴Na

24
11

13

27
13

14

²⁷Al(p,x)²⁴Na

24
11

13

32
15

17

14.268 d 5

β-

100

e^-

32
16

16

³²S(n,p)³²P

32
15

17

34m
17

Cl

17

31.99 min 3

ec β+	55.4 6
(β+	≈ 54.3)
IT	44.6 6

e⁺

^natCl

^natCl(p,x)³⁴Cl^m

34m
17

Cl

17

38
19

19

7.651 min 19

ec β+	100
(β+	≈ 99.6)

e⁺

35
17

18

³⁵Cl(α,n)³⁸K

38
19

19

44
21

23

3.97 h 4

ec β+	100
(β+	≈ 94.3)

44
22

22

⁴⁴Ti (ec β+) ⁴⁴Sc

44
21

23

44
20

24

⁴⁴Ca(p,n)⁴⁴Sc

44
21

23

44
20

24

⁴⁴Ca(d,2n)⁴⁴Sc

44
21

23

43
20

23

⁴³Ca(d,n)⁴⁴Sc

44
21

23

45
21

24

⁴⁵Sc(d,3n)⁴⁴Ti

44
22

22

45
21

24

⁴⁵Sc(p,2n)⁴⁴Ti

44
22

22

44m
21

Sc

23

58.61 h 10

IT	98.80 7
ec β+	1.20 7

γ

^natTi

^natTi(d,x)⁴⁴Sc^m

44m
21

Sc

23

^natTi

^natTi(p,x)⁴⁴Sc^m

44m
21

Sc

23

44
20

24

⁴⁴Ca(p,n)⁴⁴Sc^m

44m
21

Sc

23

46
21

25

83.79 d 4

β-

100

^natTi

^natTi(d,x)⁴⁶Sc

46
21

25

^natTi

^natTi(p,x)⁴⁶Sc

46
21

25

45
22

23

184.8 min 5

ec β+	100
(β+	≈ 84.8)

e⁺

45
21

24

⁴⁵Sc(p,n)⁴⁵Ti

45
22

23

45
21

24

⁴⁵Sc(d,2n)⁴⁵Ti

45
22

23

48
23

25

15.974 d 3

ec β+	100
(β+	≈ 50.4)

^natTi

^natTi(d,x)⁴⁸V

48
23

25

^natTi

^natTi(p,x)⁴⁸V

48
23

25

^natTi

^natTi(³He,x)⁴⁸V

48
23

25

51
24

27

27.704 d 4

ec

100

^natTi

^natTi(α,x)⁵¹Cr

51
24

27

51
23

28

⁵¹V(d,2n)⁵¹Cr

51
24

27

^natTi

^natTi(α,x)⁵¹Cr

51
24

27

51
23

28

⁵¹V(p,n)⁵¹Cr

51
24

27

^natFe

^natFe(p,x)⁵¹Cr

51
24

27

55
25

30

⁵⁵Mn(d,x)⁵¹Cr

51
24

27

55
25

30

⁵⁵Mn(p,x)⁵¹Cr

51
24

27

51
25

26

46.2 min 1

ec β+	100
(β+	≈ 97.1)

e⁺

50
24

26

⁵⁰Cr(d,n)⁵¹Mn

51
25

26

54
26

28

⁵⁴Fe(p,α)⁵¹Mn

51
25

26

52
25

27

21.1 min 2

ec	98.295 42
ec	100 0

e⁺

52
24

28

⁵²Cr(³He,3n)⁵²Fe

52
26

26

⁵²Fe (ec β+) ⁵²Mn

52
25

27

52
24

28

⁵²Cr(d,2n)⁵²Mn

52
25

27

52
24

28

⁵²Cr(p,n)⁵²Mn

52
25

27

52m
25

Mn

27

21.1 min 2

ec	98.295 42
ec	100 0

e⁺

52
24

28

⁵²Cr(p,n)⁵²Mn^m

52m
25

Mn

27

^natNi

^natNi(p,x)⁵²Fe

52
26

26

55
25

30

⁵⁵Mn(p,4n)⁵²Fe

52
26

26

52
24

28

⁵²Cr(d,2n)⁵²Mn^m

52m
25

Mn

27

50
24

26

⁵⁰Cr(α,2n)⁵²Fe

52
26

26

55
27

28

17.53 h 3

ec β+	100
(β+	≈ 75.9)

e⁺

58
28

30

⁵⁸Ni(p,α)⁵⁵Co

55
27

28

56
26

30

⁵⁶Fe(p,2n)⁵⁵Co

55
27

28

54
26

28

⁵⁴Fe(d,n)⁵⁵Co

55
27

28

56
27

29

77.236 d 26

ec β+	100
(β+	≈ 19.7)

^natCu

^natCu(p,x)⁵⁶Co

56
27

29

^natNi

^natNi(d,x)⁵⁶Co

56
27

29

^natFe

^natFe(d,x)⁵⁶Co

56
27

29

58
27

31

70.86 d 6

ec β+	100
(β+	≈ 14.9)

^natCu

^natCu(p,x)⁵⁸Co

58
27

31

^natNi

^natNi(d,x)⁵⁸Co

58
27

31

57
28

29

35.60 h 6

ec β+	100
(β+	≈ 43.6)

^natNi

^natNi(p,x)⁵⁷Ni

57
28

29

61
29

32

3.339 h 8

ec β+	100
(β+	≈ 61.4)

^natNi

^natNi(d,x)⁶¹Cu

61
29

32

64
30

34

⁶⁴Zn(p,α)⁶¹Cu

61
29

32

59
27

32

⁵⁹Co(α,2n)⁶¹Cu

61
29

32

60
28

32

⁶⁰Ni(d,n)⁶¹Cu

61
29

32

61
28

33

⁶¹Ni(p,n)⁶¹Cu

61
29

32

62
29

33

9.67 min 3

ec β+	100
(β+	≈ 97.8)

62
30

32

⁶²Zn (ec β+) ⁶²Cu

62
29

33

62
28

34

⁶²Ni(d,2n)⁶²Cu

62
29

33

62
28

34

⁶²Ni(p,n)⁶²Cu

62
29

33

63
29

34

⁶³Cu(p,2n)⁶²Zn

62
30

32

^natNi

^natNi(α,x)⁶²Zn

62
30

32

63
29

34

⁶³Cu(d,3n)⁶²Zn

62
30

32

64
29

35

12.7006 h 20

ec β+	61.5 3
(β+	≈ 17.5)
β-	38.5 3

γ

64
30

34

⁶⁴Zn(n,p)⁶⁴Cu

64
29

35

^natZn

^natZn(d,x)⁶⁴Cu

64
29

35

68
30

38

⁶⁸Zn(p,x)⁶⁴Cu

64
29

35

64
28

36

⁶⁴Ni(d,2n)⁶⁴Cu

64
29

35

63
29

34

⁶³Cu(n,γ)⁶⁴Cu

64
29

35

64
28

36

⁶⁴Ni(p,n)⁶⁴Cu

64
29

35

^natZn

^natZn(d,x)⁶⁴Cu

64
29

35

68
30

38

⁶⁸Zn(p,x)⁶⁴Cu

64
29

35

64
28

36

⁶⁴Ni(d,2n)⁶⁴Cu

64
29

35

64
28

36

⁶⁴Ni(p,n)⁶⁴Cu

64
29

35

67
29

38

61.82 h 6

β-

100 0

γ

70
30

40

⁷⁰Zn(p,α)⁶⁷Cu

67
29

38

68
30

38

⁶⁸Zn(p,2p)⁶⁷Cu

67
29

38

68
30

38

⁶⁸Zn(n,x)⁶⁷Cu

67
29

38

67
30

37

⁶⁷Zn(n,p)⁶⁷Cu

67
29

38

70
30

40

⁷⁰Zn(p,x)⁶⁷Cu

67
29

38

68
30

38

⁶⁸Zn(g,p)⁶⁷Cu

67
29

38

62
30

32

9.193 h 15

ec β+	100
(β+	≈ 8.2)

^natCu

^natCu(p,x)⁶²Zn

62
30

32

^natCu

^natCu(d,x)⁶²Zn

62
30

32

63
30

33

38.33 min 10

ec

100 0

^natCu

^natCu(³He,x)⁶³Zn

63
30

33

^natCu

^natCu(d,x)⁶³Zn

63
30

33

^natCu

^natCu(p,x)⁶³Zn

63
30

33

65
30

35

243.93 d 9

ec β+	100
(β+	≈ 1.4)

^natCu

^natCu(³He,x)⁶⁵Zn

65
30

35

^natCu

^natCu(d,x)⁶⁵Zn

65
30

35

^natCu

^natCu(p,x)⁶⁵Zn

65
30

35

^natCu

^natCu(α,x)⁶⁵Zn

65
30

35

66
31

35

9.305 h 8

ec

100 0

^natCu

^natCu(α,x)⁶⁶Ga

66
31

35

63
29

34

⁶³Cu(α,n)⁶⁶Ga

66
31

35

66
30

36

⁶⁶Zn(p,n)⁶⁶Ga

66
31

35

^natCu

^natCu(³He,x)⁶⁶Ga

66
31

35

63
29

34

⁶³Cu(α,n)⁶⁶Ga

66
31

35

66
30

36

⁶⁶Zn(p,n)⁶⁶Ga

66
31

35

67
31

36

3.2617 d 5

ec

100

^natCu

^natCu(α,x)⁶⁷Ga

67
31

36

68
30

38

⁶⁸Zn(p,2n)⁶⁷Ga

67
31

36

67
30

37

⁶⁷Zn(p,n)⁶⁷Ga

67
31

36

68
31

37

67.71 min 8

ec β+	100
(β+	≈ 88.9)

e⁺

^natGa

^natGa(p,x)⁶⁸Ge

68
32

36

69
31

38

⁶⁹Ga(p,2n)⁶⁸Ge

68
32

36

65
29

36

⁶⁵Cu(α,n)⁶⁸Ga

68
31

37

68
30

38

⁶⁸Zn(p,n)⁶⁸Ga

68
31

37

69
32

37

39.05 h 10

ec β+	100
(β+	≈ 23.6)

e⁺

69
31

38

⁶⁹Ga(p,n)⁶⁹Ge

69
32

37

66
30

36

⁶⁶Zn(α,n)⁶⁹Ge

69
32

37

^natZn

^natZn(α,xn)⁶⁹Ge

69
32

37

^natGa

^natGa(d,x)⁶⁹Ge

69
32

37

^natGa

^natGa(p,x)⁶⁹Ge

69
32

37

72
33

39

26.0 h 1

ec β+	100
(β+	≈ 87.9)

e⁺

^natGe

^natGe(d,x)⁷²As

72
33

39

70
32

38

⁷⁰Ge(α,2n)⁷²As

72
33

39

^natGe

^natGe(p,x)⁷²As

72
33

39

75
33

42

⁷⁵As(d,5n)⁷²As

72
33

39

72
32

40

⁷²Ge(p,n)⁷²As

72
33

39

75
33

42

⁷⁵As(p,4n)⁷²Se

72
34

38

^natBr

^natBr(p,x)⁷²Se

72
34

38

73
34

39

7.10 h 9

ec

100 0

e⁺

75
33

42

⁷⁵As(p,3n)⁷³Se

73
34

39

72
32

40

⁷²Ge(α,3n)⁷³Se

73
34

39

76
35

41

16.1 h 2

ec

100 0

e⁺

85
37

48

⁸⁵Rb(α,3n)⁷⁶Br

76
35

41

88
38

50

⁸⁸Sr(p,3n)⁷⁶Br

76
35

41

76
34

42

⁷⁶Se(p,n)⁷⁶Br

76
35

41

76
34

42

⁷⁶Se(p,n)⁷⁶Br

76
35

41

75
33

42

⁷⁵As(α,3n)⁷⁶Br

76
35

41

77
34

43

⁷⁷Se(p,2n)⁷⁶Br

76
35

41

76
36

40

14.8 h 1

ec β+

100

e⁺

^natBr

^natBr(p,x)⁷⁶Kr

76
36

40

79
35

44

⁷⁹Br(p,4n)⁷⁶Kr

76
36

40

81
37

44

4.572 h 4

ec β+	100
(β+	≈ 27.3)

γ

^natKr

^natKr(p,x)⁸¹Rb

81
37

44

82
36

46

⁸²Kr(p,2n)⁸¹Rb

81
37

44

82
37

45

1.2575 min 2

ec β+	100
(β+	≈ 95.4)

e⁺

^natRb

^natRb(p,x)⁸²Sr

82
38

44

85
37

48

⁸⁵Rb(p,4n)⁸²Sr

82
38

44

82m
37

Rb

45

6.472 h 6

ec β+	100
(β+	≈ 21.6)
IT	< 0.33

e⁺

82
36

46

⁸²Kr(d,2n)⁸²Rb^m

82m
37

Rb

45

82
36

46

⁸²Kr(p,n)⁸²Rb^m

82m
37

Rb

45

83
38

45

32.41 h 3

ec β+	100
(β+	≈ 27.4)

e⁺

^natRb

^natRb(p,x)⁸³Sr

83
38

45

85
37

48

⁸⁵Rb(p,3n)⁸³Sr

83
38

45

89
38

51

50.563 d 25

β-

100

e^-

89
39

50

⁸⁹Y(n,p)⁸⁹Sr

89
38

51

86
39

47

14.74 h 2

ec β+	100
(β+	≈ 31.9)

e⁺

86
38

48

⁸⁶Sr(p,n)⁸⁶Y

86
39

47

88
38

50

⁸⁸Sr(p,3n)⁸⁶Y

86
39

47

85
37

48

⁸⁵Rb(α,3n)⁸⁶Y

86
39

47

87m
39

Y

48

13.37 h 3

IT	98.43 11
ec β+	1.57 11
(β+	≈ 0.8)

γ

^natSr

^natSr(p,x)⁸⁷Y^m

87m
39

Y

48

-2
-1

-1

^-2(p,x)⁸⁷Y^m

87m
39

Y

48

85
37

48

⁸⁵Rb(α,2n)⁸⁷Y^m

87m
39

Y

48

85
37

48

⁸⁵Rb(α,2n)⁸⁷Y^m

87m
39

Y

48

88
38

50

⁸⁸Sr(p,2n)⁸⁷Y^m

87m
39

Y

48

88
38

50

⁸⁸Sr(p,2n)⁸⁷Y^m

87m
39

Y

48

87
38

49

⁸⁷Sr(p,n)⁸⁷Y^m

87m
39

Y

48

87
38

49

⁸⁷Sr(p,n)⁸⁷Y^m

87m
39

Y

48

88
39

49

106.626 d 21

ec β+	100
(β+	≈ 0.2)

γ

^natSr

^natSr(p,x)⁸⁸Y

88
39

49

90
39

51

64.05 h 5

β-

100

γ

90
40

50

⁹⁰Zr(n,p)⁹⁰Y

90
39

51

89
39

50

⁸⁹Y(n,γ)⁹⁰Y

90
39

51

86
40

46

16.5 h 1

ec β+

100

e⁺

89
39

50

⁸⁹Y(p,4n)⁸⁶Zr

86
40

46

89
40

49

78.42 h 13

ec	100 0
(β+	≈ 22.8)

e⁺

89
39

50

⁸⁹Y(d,2n)⁸⁹Zr

89
40

49

89
39

50

⁸⁹Y(p,n)⁸⁹Zr

89
40

49

90
41

49

14.60 h 5

ec β+	100
(β+	≈ 55.1)

e⁺

93
41

52

⁹³Nb(α,3n)⁹⁰Nb

90
41

49

93
41

52

⁹³Nb(p,x)⁹⁰Nb

90
41

49

99
42

57

65.924 h 6

β-

100

99
43

56

⁹⁹Tc (β-) ⁹⁹Mo

99
42

57

94m
43

Tc

51

51.9 min 10

ec

100 0

e⁺

92
42

50

⁹²Mo(α,x)⁹⁴Tc^m

94m
43

Tc

51

94
42

52

⁹⁴Mo(p,n)⁹⁴Tc^m

94m
43

Tc

51

96
43

53

51.5 min 10

IT	98.0 5
ec β+	2.0 5

^natMo

^natMo(p,x)⁹⁶Tc^m

96m
43

Tc

53

99m
43

Tc

56

6.0072 h 9

IT	99.9963 6
β-	0.0037 6

γ

100
42

58

¹⁰⁰Mo(d,3n)⁹⁹Tc^m

99m
43

Tc

56

100
42

58

¹⁰⁰Mo(p,2n)⁹⁹Tc^m

99m
43

Tc

56

89
42

47

⁸⁹Mo(n,γ)⁹⁹Mo

99
42

57

100
42

58

¹⁰⁰Mo(n,2n)⁹⁹Mo

99
42

57

238
92

146

²³⁸U(g,f)⁹⁹Mo

99
42

57

100
42

58

¹⁰⁰Mo(d,x)⁹⁹Mo

99
42

57

100
42

58

¹⁰⁰Mo(p,x)⁹⁹Mo

99
42

57

100
42

58

¹⁰⁰Mo(g,n)⁹⁹Mo

99
42

57

97
44

53

2.83 d 23

ec β+

100

γ

103
44

59

¹⁰³Ru(p,x)⁹⁷Ru

97
44

53

^natMo

^natMo(α,x)⁹⁷Ru

97
44

53

102
45

57

207.3 d 17

ec β+	78 5
(β+	≈ 14.7)
β-	22 5

γ

103
45

58

¹⁰³Rh(d,p2n)¹⁰²Rh

102
45

57

105
45

60

35.341 h 19

β-

100

e^-

104
44

60

¹⁰⁴Ru(n,γ)¹⁰⁵Ru

105
44

61

103
46

57

16.972 d 16

ec	100.00 0
IT	100.00 0

103
45

58

¹⁰³Rh(p,x)¹⁰²Rh

102
45

57

103
45

58

¹⁰³Rh(d,x)¹⁰²Rh^m

102m
45

Rh

57

103
45

58

¹⁰³Rh(p,pn)¹⁰²Rh

102
45

57

103
45

58

¹⁰³Rh(p,x)¹⁰²Rh^m

102m
45

Rh

57

103
45

58

¹⁰³Rh(d,2n)¹⁰³Pd

103
46

57

102
46

56

¹⁰²Pd(n,γ)¹⁰³Pd

103
46

57

103
45

58

¹⁰³Rh(p,n)¹⁰³Pd

103
46

57

103
45

58

¹⁰³Rh(d,x)¹⁰²Rh

102
45

57

110m
49

In

61

69.1 min 5

ec β+	100
(β+	≈ 61.3)

e⁺

107
47

60

¹⁰⁷Ag(α,n)¹¹⁰In^m

110m
49

In

61

110
48

62

¹¹⁰Cd(d,2n)¹¹⁰In^m

110m
49

In

61

110
48

62

¹¹⁰Cd(p,n)¹¹⁰In^m

110m
49

In

61

^natIn

^natIn(p,x)¹¹⁰Sn

110
50

60

108
48

60

¹⁰⁸Cd(α,2n)¹¹⁰Sn

110
50

60

¹¹⁰Sn (ec β+) ¹¹⁰In

110
49

61

111
49

62

2.8049 d 7

ec

100.00 0

e,γ

112
48

64

¹¹²Cd(p,2n)¹¹¹In

111
49

62

111
48

63

¹¹¹Cd(p,n)¹¹¹In

111
49

62

114
49

65

49.51 d 1

IT	96.75 24
ec β+	3.25 24

e,γ

114
48

66

¹¹⁴Cd(p,n)¹¹⁴In^m

114m
49

In

65

113
49

64

¹¹³In(n,γ)¹¹⁴In^m

114m
49

In

65

116
48

68

¹¹⁶Cd(p,3n)¹¹⁴In^m

114m
49

In

65

114
48

66

¹¹⁴Cd(d,2n)¹¹⁴In^m

114m
49

In

65

118
51

67

3.6 min 1

ec β+	100
(β+	≈ 73.5)

e

115
50

65

¹¹⁵Sn(α,n)¹¹⁸Te

118
52

66

^natSb

^natSb(d,x)¹¹⁸Te

118
52

66

^natSb

^natSb(p,x)¹¹⁸Te

118
52

66

116
50

66

¹¹⁶Sn(α,2n)¹¹⁸Te

118
52

66

120
53

67

81.8 11

ec

100 0

e⁺

122
52

70

¹²²Te(p,3n)¹²⁰I

120
53

67

120
52

68

¹²⁰Te(p,n)¹²⁰I

120
53

67

120
52

68

¹²⁰Te(p,3n)¹²⁰I

120
53

67

120
52

68

¹²⁰Te(p,n)¹²⁰I

120
53

67

121
53

68

2.12 h 1

ec β+	100
(β+	≈ 10.6)

γ

124
54

70

¹²⁴Xe(p,x)¹²¹I

121
53

68

122
53

69

3.63 min 6

ec β+	100
(β+	≈ 78.2)

e

127
53

74

¹²⁷I(d,7n)¹²²Xe

122
54

68

127
53

74

¹²⁷I(p,6n)¹²²Xe

122
54

68

124
54

70

¹²⁴Xe(p,x)¹²²Xe

122
54

68

123
53

70

13.2230 h 19

ec β+

100

γ

127
53

74

¹²⁷I(p,3n)¹²⁵Xe

125
54

71

124
54

70

¹²⁴Xe(p,pn)¹²³Xe

123
54

69

124
54

70

¹²⁴Xe(p,2n)¹²³Cs

123
55

68

124
52

72

¹²⁴Te(p,2n)¹²³I

123
53

70

127
53

74

¹²⁷I(p,5n)¹²³Xe

123
54

69

123
52

71

¹²³Te(p,n)¹²³I

123
53

70

¹²³Xe (ec β+) ¹²³I

123
53

70

124
53

71

4.1760 d 3

ec β+	100
(β+	≈ 22.7)

γ

124
52

72

¹²⁴Te(d,2n)¹²⁴I

124
53

71

125
52

73

¹²⁵Te(p,2n)¹²⁴I

124
53

71

124
52

72

¹²⁴Te(p,n)¹²⁴I

124
53

71

124
52

72

¹²⁴Te(p,n)¹²⁴I

124
53

71

125
52

73

¹²⁵Te(p,2n)¹²⁴I

124
53

71

124
52

72

¹²⁴Te(d,2n)¹²⁴I

124
53

71

125
53

72

59.404 d 10

ec

100 0

γ

124
52

72

¹²⁴Te(d,n)¹²⁵I

125
53

72

125
52

73

¹²⁵Te(p,n)¹²⁵I

125
53

72

124
54

70

¹²⁴Xe(n,γ)¹²⁵Xe

125
54

71

¹²⁵Xe (β-) ¹²⁵I

125
53

72

131
53

78

8.0252 d 6

β-

100

e^-,γ

130
52

78

¹³⁰Te(n,γ)¹³¹Te

131
52

79

¹³¹Te (ec β+) ¹³¹I

131
53

78

130
52

78

¹³⁰Te(d,x)¹³¹I

131
53

78

123
54

69

2.050 h 14

ec β+	100
(β+	≈ 23.1)

123
55

68

¹²³Cs (ec β+) ¹²³Xe

123
54

69

128
55

73

3.640 min 14

ec β+	100
(β+	≈ 68.8)

128
56

72

¹²⁸Ba (ec β+) ¹²⁸Cs

128
55

73

133
55

78

¹³³Cs(p,6n)¹²⁸Ba

128
56

72

131
55

76

9.689 d 16

ec

100.00 0

e,X

133
55

78

¹³³Cs(p,3n)¹³¹Cs

131
55

76

131
54

77

¹³¹Xe(p,n)¹³¹Cs

131
55

76

130
56

74

¹³⁰Ba(n,γ)¹³¹Ba

131
56

75

¹³¹Ba (ec β+) ¹³¹Cs

131
55

76

¹³¹Ba (ec β+) ¹³¹Cs

131
55

76

140
59

81

3.39 min 1

ec β+	100
(β+	≈ 51.0)

140
60

80

¹⁴⁰Nd (ec β+) ¹⁴⁰Pr

140
59

81

^natCe

^natCe(³He,x)¹⁴⁰Nd

140
60

80

141
59

82

¹⁴¹Pr(d,3n)¹⁴⁰Nd

140
60

80

141
59

82

¹⁴¹Pr(p,2n)¹⁴⁰Nd

140
60

80

149
61

88

53.08 h 9

β-

100

e,γ

148
60

88

¹⁴⁸Nd(n,γ)¹⁴⁹Nd

149
60

89

¹⁴⁹Nd (β-) ¹⁴⁹Pm

149
61

88

159
64

95

18.479 h 4

β-

100

γ

^natGd

^natGd(d,x)¹⁵⁹Gd

159
64

95

152
65

87

17.5 h 1

ec β+	100
(β+	≈ 20.3)
α	< 7 x 10^-7

e⁺

^natGd

^natGd(p,x)¹⁵²Tb

152
65

87

^natGd

^natGd(d,x)¹⁵²Tb

152
65

87

152
64

88

¹⁵²Gd(d,2n)¹⁵²Tb

152
65

87

155
64

91

¹⁵⁵Gd(p,4n)¹⁵²Tb

152
65

87

155
65

90

5.32 d 6

ec

100

γ

155
64

91

¹⁵⁵Gd(p,n)¹⁵⁵Tb

155
65

90

^natGd

^natGd(d,x)¹⁵⁵Tb

155
65

90

155
64

91

¹⁵⁵Gd(p,2n)¹⁵⁵Tb

155
65

90

166
67

99

26.824 h 12

β-

100

e,γ

164
66

98

¹⁶⁴Dy(n,γ)¹⁶⁵Dy

165
66

99

¹⁶⁵Dy(n,γ)¹⁶⁶Dy

166
66

100

¹⁶⁶Dy (β-) ¹⁶⁶Ho

166
67

99

167
69

98

9.25 d 2

ec

100

γ

^natEr

^natEr(d,x)¹⁶⁷Tm

167
69

98

^natEr

^natEr(p,x)¹⁶⁷Tm

167
69

98

165
67

98

¹⁶⁵Ho(α,x)¹⁶⁷Tm

167
69

98

167
68

99

¹⁶⁷Er(p,n)¹⁶⁷Tm

167
69

98

169
69

100

¹⁶⁹Tm(d,x)¹⁶⁷Tm

167
69

98

^natYb

^natYb(d,x)¹⁶⁷Tm

167
69

98

¹⁶⁹Tm(p,3n)¹⁶⁹Tm

169
69

100

169
70

99

32.018 d 5

ec

100

e

169
69

100

¹⁶⁹Tm(d,2n)¹⁶⁹Yb

169
70

99

169
69

100

¹⁶⁹Tm(p,n)¹⁶⁹Yb

169
70

99

168
70

98

¹⁶⁸Yb(n,γ)¹⁶⁹Yb

169
70

99

177
71

106

6.6443 d 9

β-

100

e^-,γ

176
70

106

¹⁷⁶Yb(d,n)¹⁷⁷Lu^m

177m
71

Lu

106

176
71

105

¹⁷⁶Lu(n,γ)¹⁷⁷Lu

177
71

106

176
70

106

¹⁷⁶Yb(d,x)¹⁷⁷Lu^m

177m
71

Lu

106

176
70

106

¹⁷⁶Yb(d,p)¹⁷⁷Yb

177
70

107

176
70

106

¹⁷⁶Yb(n,γ)¹⁷⁷Yb

177
70

107

¹⁷⁷Yb (β-) ¹⁷⁷Lu

177
71

106

178
73

105

2.33 h 12

ec

100.00 0

e,X

176
72

104

¹⁷⁶Hf(α,2n)¹⁷⁸Ta

178
73

105

^natHf

^natHf(p,x)¹⁷⁸Ta

178
73

105

178
74

104

21.6 d 3

ec

100

γ

^natHf

^natHf(α,xn)¹⁷⁸W

178
74

104

181
73

108

¹⁸¹Ta(d,5n)¹⁷⁸W

178
74

104

181
73

108

¹⁸¹Ta(p,4n)¹⁷⁸W

178
74

104

186
75

111

3.7185 d 5

β-	92.50 10
ec	7.50 10

γ

186
74

112

¹⁸⁶W(d,2n)¹⁸⁶Re

186
75

111

186
74

112

¹⁸⁶W(p,n)¹⁸⁶Re

186
75

111

185
75

110

¹⁸⁵Re(n,γ)¹⁸⁶Re

186
75

111

188
75

113

17.005 h 3

β-

100

γ

186
74

112

¹⁸⁶W(n,γ)¹⁸⁷W

187
74

113

¹⁸⁷W(n,γ)¹⁸⁸W

188
74

114

¹⁸⁸W (β-) ¹⁸⁸Re

188
75

113

192
77

115

73.829 d 11

β-	95.24 4
ec	4.76 4

e^-

192
76

116

¹⁹²Os(d,2n)¹⁹²Ir

192
77

115

192
76

116

¹⁹²Os(p,n)¹⁹²Ir

192
77

115

200
82

118

21.5 h 4

ec

100

γ

203
81

122

²⁰³Tl(p,4n)²⁰⁰Pb

200
82

118

201
82

119

9.33 h 5

ec β+	100
(β+	≈ 0.1)

γ

203
81

122

²⁰³Tl(p,3n)²⁰¹Pb

201
82

119

202m
82

Pb

120

3.54 h 2

IT	90.5 5
ec β+	9.5 5

γ

203
81

122

²⁰³Tl(p,2n)²⁰²Pb^m

202m
82

Pb

120

203
82

121

51.92 h 3

ec

100

γ

^natTl

^natTl(d,x)²⁰³Pb

203
82

121

^natTl

^natTl(p,x)²⁰³Pb

203
82

121

211
85

126

7.214 h 7

ec	58.20 8
α	41.80 8

α

209
83

126

²⁰⁹Bi(α,3n)²¹⁰At

210
85

125

209
83

126

²⁰⁹Bi(α,2n)²¹¹At

211
85

126

225
89

136

9.920 d 3

α	100
¹⁴C	5.3 x 10^-10 13

α

232
90

142

²³²Th(p,x)²²⁵Ac

225
89

136

226
88

138

²²⁶Ra(p,2n)²²⁵Ac

225
89

136

232
90

142

²³²Th p ²²⁵Ra

225
88

137

²²⁵Ra (β-) ²²⁵Ac

225
89

136

227
89

138

21.772 y 3

β-	98.6200 36
α	1.3800 36

α

232
90

142

²³²Th(p,x)²²⁷Ac

227
89

138

227
90

137

18.697 d 7

α

100

232
90

142

²³²Th(p,x)²²⁷Th

227
90

137

230
92

138

20.23 d 2

α

100 0

α

232
90

142

²³²Th(p,3n)²³⁰Pa

230
91

139

231
91

140

²³¹Pa(p,2n)²³⁰U

230
92

138

231
91

140

²³¹Pa(d,3n)²³⁰U

230
92

138

230
91

139

²³⁰Pa (β-) ²³⁰U

230
92

138

The MIB link opens the Medical Isotope Browser for the calculation of production yields

You can adjust the parameters, e.g. beam energy, to test different scenarios

Build : jsbuild