, Main Production Modes Cr ? 56(? ? )Mn ? 56

, Mn ? 55(n,?)Mn ? 56

, Mn ? 55(d,p)Mn ? 56

, Fe ? 58(d,?)Mn ? 56

, ) M1+0,0005%E2 7, vol.87, p.17300

, Main Production Modes Ni ? 58(?,n)Ni ? 57

, Ni ? 58(n,2n)Ni ? 57

, Ni ? 58(d,dn)Ni ? 57

, Fe ?, vol.56, p.57

, Fe ?, vol.56, p.57

, Mn ? 55(?,2n)Ni ? 57 12(Zn), vol.658, p.75

, ) 0,0014 (4) ?24,15(Zn) 763,646 (15) 0,0089 (10) ?16,4(Zn) 796,212 (29) 0,0029 (7) ?18,6(Zn) 800,135 (24) 0,0010 (5) ?2,1(Zn), Zn), vol.686, issue.7, pp.1-2

, ) 0,048 (19) ?11,3(Zn), Zn), vol.953, issue.9, pp.1-2

, Zn) 1232,486 (8) 0,056 (19) ?25,8(Zn) 1248,790 (13) 0,0010 (3) ?28,15(Zn) 1274,506 (19) 0,0070 (8) ?28,14(Zn) 1298,950 (28) 0,0038 (5) ?23,4(Zn) 1305,826 (11) 0,0040 (5) ?3,1(Zn) 1333, vol.33, pp.1-2

, ) ?25,6(Zn) 1523,298 (8) 0,0055 (7) ?30,10(Zn) 1534,614 (22) 0,0057 (16) ?12,2(Zn) 1554, ) M1+E2 ?5,1(Zn) 1787, vol.181, p.89

, ) ?28,4(Zn), vol.22, pp.1-2, 2009.

, ) ?19,1(Zn) 2713,78 (4) 0,0062 (19) ?20,1(Zn) 2751, vol.98, pp.1-2

, Zn) 1232,480 (15) 0,056 (19) ? 25,8 (Zn) 1248,779 (22) 0,0010 (3) ? 28,15 (Zn), 14 (Zn) 1298,95 (7) 0,0038 (5) ? 23,4 (Zn) 1305, vol.24, p.39

, 1 (Zn) 2292,171 (13) 0,0170 (18) ? 11,1 (Zn) 2341, 4 (Zn) 2026,016 (25) 1 (Zn) 2189, vol.20, p.7, 2009.

, Main Production Modes Sr ? 88(p,n)Y ? 88 Possible impurities : Y ? 84, Rb ?, vol.85, p.86

, Sr ? 88(d,2n)Y ? 88 Possible impurities : Y ? 84, vol.87, p.89

-. L. References, J. Dubridge, and . Marshall, %E2 Tc) 537,79 (15) 0,0015 (5) ?7,3(Tc) 580,51 (5) 0,0036 (4) ?8,3(Tc) 581,30 (12) 0,00010 (5) ?12,4(Tc) 620,03 (5) 0,0024 (6) ?8,1(Tc), ) ?1,0(Tc), vol.58, p.12, 1940.

V. Chechev, A. Egorov, L. Morillon, and M. M. Bé, , vol.2, p.1726

V. Chechev, A. Egorov, L. Morillon, and M. M. Bé, ) 2) (Cd) 356,43 (10) 0,00425 (30) ? 19,11 (Cd), Cd), vol.2, issue.5, p.1

, Main Production Modes Ag ? 109(n,?)Ag ? 110m ? : 4,7 (2) barns Possible impurities : Ag ? 108m, p.110

. G. Ineel/r, Helmer ? 1,0 (Xe), vol.80, p.607

, Main Production Modes Fission product Possible impurities : None Te ? 130(n,?)Te ? 131m Possible impurities : T 1/2 (Te ? 131m) = 30 h

, Te ? 131m(? ? )I ? 131 ? : 0,02 (1) barns Possible impurities : Te ? 121m, Te ? 121, Te ? 123m, Te ? 125m, vol.127

, Te ? 131(? ? )I ? 131 ? : 0,27 (6) barns Possible impurities : Te ? 121m, Te ? 121, Te ? 123m, Te ? 125m, Te ? 127, vol.54, p.775, 1938.

-. F. Verster, G. J. Nijgh, R. Van-lieshout, and C. J. Bakker, Physica, vol.17, p.637, 1951.

H. Sreb, Phys. Rev, vol.81, p.643, 1951.

K. Sinclair and A. F. Holloway, Nature (London), vol.167, 1951.

G. Rose, L. G. Hinman, and . Lang, Phys. Rev, vol.86, p.863, 1952.

L. Wolfson, Can. J. Phys, vol.30, p.715, 1952.

J. R. Haskins and J. D. Kurbatov, Phys. Rev, vol.88, p.884, 1952.

E. Bell and R. L. Graham, Phys. Rev, vol.86, p.212, 1952.

M. Bartholomew, F. Brown, R. C. Hawkings, W. F. Merritt, and L. Yaffe, Can. J. Chem, vol.31, 1953.

E. Lockett and R. H. Thomas, Nucleonics, vol.11, 1953.

H. Seliger, L. Cavallo, and S. V. Culpepper, Phys. Rev, vol.90, p.443, 1953.

P. Keene, L. A. Mackenzie, and C. W. Gilbert, Philos. Mag, vol.2, p.360, 1958.

L. Burkinshaw, Phys. in. Med. Biol, vol.2, p.255, 1958.

-. L. Wolfson, J. J. Park, and L. Yaffe, Nucl. Phys, vol.39, p.613, 1962.

K. Hargrove, K. W. Geiger, and A. Chatterjee, Multipolarity) -H. Jungclaussen, J. S. Schintlmeister, H. Sodan. Nucl. Phys, vol.40, p.650, 1963.

O. Daniel, P. Mehling, D. Schmidlin, E. Schotte, and . Thummernicht, Z. Phys, vol.179, p.62, 1964.

G. A. Moss, D. O. Wells, and D. K. Mcdaniels, Nucl. Phys, vol.82, p.289, 1966.

G. Ythier and . Ardisson, Comp. Rend. Acad. Sci, p.944, 1967.

-. , Schrader. Appl. Rad. Isotopes, vol.60, p.317, 2004.

-. A. Silva, M. C. De-almeida, and C. J. Da-silva, J. U. Delgado. Appl. Rad. Isotopes, vol.60, 2004.

, Main Production Modes Fission products Possible impurities : Xe ? 127, Xe ? 129m, Xe ? 133, Xe ? 133m, p.135

, Xe ? 130(n,?)Xe ? 131m ? : 0,45 (10) barns Possible impurities : Xe ? 129m

-. S. References, R. L. Geiger, F. Graham, and . Brown, Can. J. Phys, vol.40, p.1258, 1962.

G. Andersson, Ark. Fysik, vol.28, 1964.

H. Knauf, H. Sommer, and . Klewe-nebenius, Z. Phys, vol.197, 1966.

K. Fransson, P. Erman. Ark. Fysik, vol.39, p.7, 1968.

-. F. Emery, S. A. Reynolds, E. I. Wyatt, and G. I. Gleason, Nucl. Science and Eng, vol.48, p.319, 1972.

-. A. Benson, H. Y. Gee, M. W. ;-r, F. Meyer, W. B. Momyer et al., Nathans. J. Inorg. Nucl. Chem, vol.35, p.387, 1973.

L. Campbell and B. Martin, Z. Phys, vol.274, p.9, 1975.

D. C. Hoffman, J. W. Barnes, B. J. Dropesky, F. O. Lawrence, G. M. Kelley et al., J. Inorg. Nucl. Chem, vol.37, p.2336, 1975.

. L. -r, H. R. Aube, C. P. Hiddleston, and . Browne, Nucl. Data Sheets, vol.17, p.573, 1976.

C. Tam, A. Veres, I. Pavlicsek, and L. Lakosi, J. Phys. G, vol.16, p.1215, 1990.

M. P. Unterweger, Nucl. Instrum. Methods, vol.312, p.349, 1992.

.. V. -yu, Y. L. Sergeenkov, T. W. Khazov, M. R. Burrows, and . Bhat, Nucl. Data Sheets, vol.72, p.487, 1994.

H. Schönfeld and . Janssen, Nucl. Instrum. Methods, vol.369, p.527, 1996.

M. Gorozhankin, N. Coursol, E. A. Yakushev, and T. S. Vylov, C.Briançon. Appl. Rad. Isotopes, vol.56, p.189, 2002.

, Cs), vol.1, issue.2, p.453

, Main Production Modes Ba ? 132(n,?)Ba ? 133 ? : 6,5 (8) barns Possible impurities : Ba ? 131, p.140

, Ba ? 132(n,?)Ba ? 133m ? : 0,5 barns Possible impurities : Ba ? 131, p.140

, Cs ? 133(p,n)Ba ? 133 Possible impurities : Cs ? 132

-. E. References, S. A. Wyatt, T. H. Reynolds, W. S. Handley, H. A. Lyon et al., Nucl. Sci. Eng, vol.11, 1961.

-. Blasi, M. Bocciolini, P. R. Maurenzig, P. Sona, and N. Taccetti, Nuovo Cim, vol.50, 1967.

A. Bearden, Rev. Mod. Phys, vol.39, 1967.

Y. Lagoutine, . Le, J. Gallic, and . Legrand, Int. J. Appl. Radiat. Isotop, vol.19, p.475, 1968.

A. Notea and Y. Gurfinkel, Nucl. Phys, vol.107, 1968.

-. S. Reynolds, J. F. Emery, and E. I. Wyatt, Nucl. Sci. Eng, vol.32, 1968.

J. P. Alexander and . Lau, Nucl. Phys, vol.121, p.612, 1968.

-. E. Bosch, A. J. Haverfield, E. Szichman, and S. M. Abecasis, Nucl. Phys, vol.108, 1968.

D. P. Donnelly, J. J. Reidy, and M. L. Wiedenbeck, Phys.Rev, vol.173, p.1192, 1968.

V. Narand and H. Houtermans, Phys. Soc, p.97, 1968.

(. Ratio,

J. B. Gunnink, R. P. Niday, R. A. Anderson, and . Meyer, Priv. Comm, 1969.

K. F. Walz and J. L. Campbell, Z. Naturforsch, vol.25, p.921, 1970.

-. F. Emery, S. A. Reynolds, E. I. Wyatt, and G. I. Gleason, Nucl. Sci. Eng, vol.48, p.319, 1972.

-. Schmidt-ott and R. M. Fink, Z. Phys, vol.249, p.286, 1972.

Y. Inoue, T. Yoshizawa, and . Morii, J. Phys. Soc. Jap, vol.34, p.1437, 1973.

A. Mcnelles and J. L. Campbell, Nucl. Instrum. Methods, vol.109, p.241, 1973.

D. Lloyd and C. W. Mays, Int. J. Appl. Radiat. Isotop, vol.24, p.189, 1973.

-. Legrand, K. Debertin, and K. F. Walz, Nucl. Instrum. Methods, vol.112, p.229, 1973.

B. K. Mahapatra and P. Mukherjee, J. Phys, vol.388, p.7, 1974.

F. Nicaise and A. W. Waltner, Nucl. Instrum. Methods, vol.131, p.477, 1975.

-. Schötzig, K. Debertin, K. F. Walz-;--r, R. G. Gehrke, R. C. Helmer et al., XK-ray and g-ray emission probabilities), Int. J. Appl. Radiat. Isotop, vol.28, p.405, 1977.

K. S. Krane, At. Data Nucl. Data Tables, vol.19, p.363, 1977.

P. Larkins, At. Data Nucl. Data Tables, vol.20, p.313, 1977.

H. M. Rösel, K. Friess, H. C. Alder, . G. Pauli-;-r, R. C. Helmer et al., At. Data Nuc. Data Tables, vol.21, p.189, 1978.

-. Vylov, B. P. Osipenko, and V. G. Chumin, Particles and Nuclei, vol.6, p.1350, 1978.

H. Hansen, J. Morel, and J. Legrand, Report NEANDC v, vol.3, 1979.

-. Houtermans, O. Milosevic, and F. Reichel, Int. J. Appl. Radiat. Isotop, vol.31, 1980.

M. Roney and W. A. Seale, Nucl. Instrum. Meth, vol.171, p.389, 1980.

A. R. Rutledge, L. V. Smith, and J. S. Merritt, Report AECL, vol.6692, 1980.

K. S. Krane, At. Data Nuc. Data Tables, vol.25, p.29, 1980.

B. Chauvenet, J. Morel, and J. Legrand, , 1980.

D. D. Hoppes, J. M. Hutchinson, F. J. Schima, and M. P. Unterweger, Report NBS-SP, vol.626, 1982.

-. Kits, F. Latal, and M. Choc, Int. J. Appl. Radiat. Isotop, vol.34, p.935, 1983.

-. P. Chechev and A. G. , Egorov. Appl. Rad. Isotopes, vol.52, p.601, 2000.

M. P. Unterwerger, Appl. Rad. Isotopes, vol.56, 2002.

H. Schrader, Half-life) 0 (Ce) 2464,031 (20) 0,0097 (13) ? 11,0 (Ce) 2521, Appl. Rad. Isotopes, vol.60, issue.14, p.392, 2004.

. G. Ineel/r, Helmer 6 Main Production Modes Separate from Ba ? 140 + La ? 140 Possible impurities : Ba ? 140

, Possible impurities : La ? 141 Reproduction Service 30, La ? 139(n,?)La ? 140 ? : 8,93 (4) barns, vol.1