1 Decay Scheme. 2 Nuclear Data. 2.1 Electron Capture Transitions

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1 1 Decay Scheme - disintegrates (11) % by beta plus emission and 8.2 (11) % by electron capture to Fe-. - emits gamma rays with energies up to 612 and the energies and emission probabilities for many of these transitions are useful for the calibration of Ge detectors. Le cobalt se désintègre à 19,58 (11) % par émission bêta plus et à 8,2 (11) % par capture électronique vers des niveaux excités du fer. Le cobalt émets des rayonnements gamma d énergie allant jusqu à 612, ce qui le rend utile pour l étalonnage des détecteurs germanium. 2 Nuclear Data T 1/2 ( ) : 77,26 (26) d Q ( ) : 6 (2) 2.1 Electron Capture Transitions Probability Nature lg ft P K P L P M 1 ɛ,15 17,7 (2),29 (7) Allowed 6,91,8766 (17),155 (1),171 (6) ɛ,1 118, (2),167 (5) 8,1,8779 (17),1 (1),169 (6) ɛ,1 171,2 (2),2159 (18) Allowed 7,2,8816 (17),11 (1),16 (6) ɛ, (2),688 (1) Allowed 6,9,885 (16),989 (1),159 (5) ɛ,11 6,1 (2) 9,9 (18) Allowed 6,51,886 (16),972 (1),1 (5) ɛ,1 65,7 (2) 12,66 () Allowed 6,,8866 (16),971 (1),1 (5) ɛ,9 517,2 (2),965 (15) Allowed 7,,8868 (16),969 (1),155 (5) ɛ,8 79,5 (2) 16,86 (5) Allowed 6,69,8875 (16),96 (1),15 (5) ɛ,7 112,7 (2) 21, (5) Allowed 6,98,8882 (16),957 (1),15 (5) ɛ,6 1195,9 (2),15 (5) 2nd Forbidden 1,2,888 (16),957 (1),15 (5) ɛ,5 1,1 (2) 8,99 (6) Allowed 7,58,888 (16),955 (1),15 (5) ɛ, 166,1 (2),2 (6) 2nd Forbidden 1,26,8885 (16),955 (1),15 (5) ɛ,2 28,9 (2) 2, () Allowed 8,62,8888 (16),952 (1),152 (5) ɛ,1 719,2 (2),5 () 2nd Forbidden 11,6,889 (16),951 (1),152 (5) LBNL, NPL /C.M. Baglin and T.D. MacMahon 1 9/9/2 9/2/25

2 2.2 β Transitions Probability Nature lg f t 1 β,7 98,7 (2),8 (7) Allowed 6,98 β,6 17 (2),6 (2) 2nd Forbidden 1,2 β,5 21,1 (2) 1, (2) Allowed 7,58 β, 58,1 (2),86 (22) 2nd Forbidden 1,26 β,2 158,9 (2) 18,29 (16) Allowed 8,62 β,1 2697,2 (2),25 (17) 2nd Forbidden 11,6 2. Gamma Transitions and Internal nversion efficients P γce Multipolarity α T α π 1 (1 ) (1 ) γ 11,8(Fe) 26, (5),2 (2) γ 8,7(Fe) 11,15 (),269 (2) γ 8,6(Fe) 86,55 (11),58 () γ 1,7(Fe) 655, (5),8 (8) γ 11,7(Fe) 67,579 (5),5 (5) γ 8,5(Fe) 7,51 (),191 () M1E2 γ 7,(Fe) 787,7 (5),1 () M1E2 γ 1,(Fe) 86,77 (2) 99,972 (2) E2, (9) γ 12,7(Fe) 852,72 (),9 () γ 8,(Fe) 896,51 (6),7 (22) γ 1,5(Fe) 977,72 (5) 1,22 (7) M1(E2) γ 11,5(Fe) 996,98 (5),116 (6) M1E2 γ 5,2(Fe) 17,827 (9) 1, (5) M1(E2) γ 9,(Fe) 188,89 (9),5 () M1E2 γ 1,(Fe) 11,68 (6),12 () γ 11,(Fe) 1159,9 (6),88 () M1E2 γ 12,5(Fe) 1175,11 () 2,29 (9) M1E2 γ 8,(Fe) 1198,888 (5), () γ 2,1(Fe) 128,288 (1) 66,1 (16) E2 γ 1,5(Fe) 1271,92 (6),22 (8) γ 15,5(Fe) 15,99 (),1228 (16) γ 7,2(Fe) 16,2117 (9),28 (1) M1E2 γ 1,(Fe) 12,76 (6),18 () γ 11,(Fe) 162,22 (6),778 (9) γ 12,(Fe) 16,75 (5),621 (21) γ 8,2(Fe) 1771,7 (9) 15,5 () M1E2 γ,1(fe) 181,757 (),69 () M1E2 γ 9,2(Fe) 196,71 (8),76 () M1E2 γ 1,2(Fe) 215,217 (7),17 (1) M1E2 γ 11,2(Fe) 2,797 (7) 7,7 (1) M1E2 2,7 γ,1(fe) 211,15 (5),76 () M1E2 γ 12,2(Fe) 2212,97 (9),85 (5) M1E2,1 γ 5,1(Fe) 2276,11 (6),1181 () E2,5 γ 15,2(Fe) 27,22 (),78 (6) γ 6,1(Fe) 252,9 (11),6 () M1E2,8 γ 7,1(Fe) 2598,5 () 16,969 () M1E2 5,2 γ,(fe) 2657,527 (),195 (2) [E2] 6, γ 8,1(Fe) 9,65 () 1,9 (19) M1E2 6,8 γ 9,1(Fe) 22,29 (8),25 (1) M1E2 7,8 LBNL, NPL /C.M. Baglin and T.D. MacMahon 2 9/9/2 9/2/25

3 P γce Multipolarity α T α π 1 (1 ) (1 ) γ 1,1(Fe) 25,5 () 7,877 () E2 8,9 γ 11,1(Fe) 27,79 () 1,8 (9) M1E2 8 γ 6,(Fe) 69,86 (11),1 (8) E2 9,6 γ 12,1(Fe) 51,22 (),9 (6) E2 9,7 γ 1,1(Fe) 58,5 (6),1958 (16) M1E2 9 γ 1,1(Fe) 6,8 (),167 (5) γ 15,1(Fe) 611,5 (),81 () [E2] 1, Atomic Data.1 Fe ω K :,55 () ω L :,6 (6) n KL : 1,7 ().1.1 X Radiations Relative probability K Kα 2 6,991 51,7 Kα 1 6,91 1 Kβ 1 7,58 } Kβ 5 7,18 } 2,67 L Ll,615 Lβ, Auger Electrons Relative probability Auger K KLL 5,7 5,65 1 KLX 6,158 6, 27, KXY 6,926 7,15 1,87 Auger L,51,59 LBNL, NPL /C.M. Baglin and T.D. MacMahon 9/9/2 9/2/25

4 Electron Emissions Electrons per 1 disint. e AL (Fe),51 -,59 111,8 (8) e AK (Fe) 6, () KLL 5,7-5,65 } KLX 6,158-6, } KXY 6,926-7,15 } β,2 max: 158,9 (2) 18,29 (16) β,2 avg: 61,2 (9) β, max: 58,1 (2),86 (22) β, avg: 27,1 (9) β,5 max: 21,1 (2) 1, (2) β,5 avg: 178,7 (8) β,6 max: 17 (2),6 (2) β,6 avg: 76,7 (8) β,7 max: 98,7 (2),8 (7) β,7 avg: 5, (9) β,1 max: 2697,2 (2),25 (17) β,1 avg: 125,8 (1) LBNL, NPL /C.M. Baglin and T.D. MacMahon 9/9/2 9/2/25

5 5 Photon Emissions 5.1 X-Ray Emissions Photons per 1 disint. XL (Fe),615,792,581 (17) XKα 2 (Fe) 6,991 7,5 (1) } Kα XKα 1 (Fe) 6,91 1,75 (17) } XKβ 1 (Fe) 7,58 },5 (5) K β 1 XKβ 5 (Fe) 7,18 } 5.2 Gamma Emissions Photons per 1 disint. γ 11,8 (Fe) 26,1 (1),2 (2) γ 8,7 (Fe) 11,8 (8),269 (2) γ 8,6 (Fe) 86,5 (11),58 () γ ± 511 9,21 (22) γ 1,7 (Fe) 655, (8),8 (8) γ 11,7 (Fe) 67,7 (8),5 (5) γ 8,5 (Fe) 7,585 (2),191 () γ 7, (Fe) 787,791 (2),1 () γ 1, (Fe) 86,768 (19) 99,999 (2) γ 12,7 (Fe) 852,78 (5),9 () γ 8, (Fe) 896,5 (7),7 (22) γ 1,5 (Fe) 977,6 () 1,22 (7) γ 11,5 (Fe) 996,99 (5),116 (6) γ 5,2 (Fe) 17,8 (2) 1, (5) γ 9, (Fe) 189, (2),5 () γ 1, (Fe) 11, (7),12 () γ 11, (Fe) 1159,9 (8),88 () γ 12,5 (Fe) 1175,878 (22) 2,29 (9) γ 8, (Fe) 1198,78 (2), () γ 2,1 (Fe) 128,276 (22) 66,1 (16) γ 1,5 (Fe) 1272,2 (6),22 (8) γ 15,5 (Fe) 15,8 (29),1228 (16) γ 7,2 (Fe) 16,196 (),28 (1) γ 1, (Fe) 12,75 (8),18 () γ 11, (Fe) 162, (12),778 (9) γ 12, (Fe) 16,5 (5),621 (21) γ 8,2 (Fe) 1771,27 () 15,5 () γ,1 (Fe) 181,726 (),69 () γ 9,2 (Fe) 196,7 (11),76 () LBNL, NPL /C.M. Baglin and T.D. MacMahon 5 9/9/2 9/2/25

6 Photons per 1 disint. γ 1,2 (Fe) 215,176 (5),17 (1) γ 11,2 (Fe) 2,752 (5) 7,71 (1) γ,1 (Fe) 211,92 (6),76 () γ 12,2 (Fe) 2212,898 (),85 (5) γ 5,1 (Fe) 2276,6 (16),118 () γ 15,2 (Fe) 27,7 (),78 (6) γ 6,1 (Fe) 252, (8),6 () γ 7,1 (Fe) 2598,8 () 16,96 () γ, (Fe) 2657, (8),195 (2) γ 8,1 (Fe) 9,559 () 1,8 (19) γ 9,1 (Fe) 21,9 (11),2 (1) γ 1,1 (Fe) 25,2 (5) 7,87 () γ 11,1 (Fe) 272,978 (6) 1,855 (9) γ 6, (Fe) 69,69 (),1 (8) γ 12,1 (Fe) 51,119 (),92 (6) γ 1,1 (Fe) 57,9 (6),19 (16) γ 1,1 (Fe) 6,71 (),167 (5) γ 15,1 (Fe) 611,8 (8),8 () 6 Main Production Modes { Fe (p,n) Possible impurities : 57, 58 7 References - W. H. Burgus, G.A. wan, J.W. Hadley, W. Hess, T. Shull, M.L. Stevenson, H.F. York. Phys. Rev. 95 (195) 75 - H. W. Wright, E.I. Wyatt, S.A. Reynolds, W.S. Lyon, T.H. Handley. Nucl. Sci. Eng. 2 (1957) 27 - H. Pettersson, O. Bergman, C. Bergman. Ark. Fysik 29 (1965) 2 - K. W. Dolan, D.K. McDaniels, D.O. Wells. Phys. Rev. 18 (1966) M. Huguet, H. Forest, C. Ythier. mp. Rend. Acad. Sci. (Paris) 26B (1966) 12 - R. Schöneberg, M. Schumacher, A. Flammersfeld. Z. Physik 192 (1966) 5 - P.H. Barker, R.D. nnor. Nucl. Instrum. Methods 57 (1967) 17 - C. Chasman, R.A. Ristinen. Phys. Rev. 159 (1967) R.L. Auble, W.C. McHarris, W.H. Kelly. Nucl. Phys. A91 (1967) A.H. Sher, B.D. Pate. Nucl. Phys. A112 (1968) 85 LBNL, NPL /C.M. Baglin and T.D. MacMahon 6 9/9/2 9/2/25

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8 - D.E. Alburger, E.K. Warburton, Z. Tao. Phys. Rev. C (1989) H. Schrader. Appl. Rad. Isotopes (1989) 81 - D.E. Alburger, E.K. Warburton, Z. Tao. Phys. Rev. C (1989) K. T. Lesko, E. B. Norman, B. Sur, R.-M. Larimer. Phys. Rev. C (1989) 5 - D.E. Alburger, C. Wesselborg. Phys. Rev. C2 (199) R.A. Meyer. Fizika 22 (199) 15 (Energies and Relative gamma-ray emission probabilities.) - M.F. James, R.W. Mills, D.R. Weaver. UK AEA Report, Winfrith Technology Centre AE-RS-182 (1991) ( Normalised Residuals technique for statistical analysis of data.) - M.U. Rajput, T.D. MacMahon. Nucl. Instrum. Methods Phys. Res. A12 (1992) 289 ( Rajeval technique for statistical analysis of data.) - E.Funck, U. Schötzig, M.J. Woods, J.P. Sephton, A.S. Munster, J.C.J. Dean, P. Blanchis, B. Chauvenet. Nucl. Instrum. Methods Phys. Res. A12 (1992) - U.Schötzig, H.Schrader, K.Debertin. Proc. Int. nf. Nuclear Data for Science and Technology, Jülich, Germany (1992) 582 (Gamma-ray emission intensities) - E. Schönfeld, F. Chu, E. Browne. (1997) (The Program EC Capture for Calculating electron capture probabilities PK, PL, PM, and PN.) - E. Schönfeld, G. Rodloff. Report PTB (October) (1998) (Tables of the energies of K-Auger electrons for elements with atomic numbers in the range from Z=11 to Z=1.) - Junde Huo. Nucl. Data Sheets 86 (1999) 15 (Decay scheme) - E. Schönfeld, G. Rodloff. Report PTB (February) (1999) (Energies and relative emission probabilities of K x-rays for elements with atomic numbers in the range from Z=5 to Z=1.) - R.G.Helmer, C. Van der Leun. Nucl. Instrum. Methods Phys. Res. A5 (2) 5 (Gamma energy) - S.Raman, et al.. Nucl. Instrum. Methods Phys. Res. A5 (2) 89 (Gamma-ray emission intensities) - C.M.Baglin, et al.. Nucl. Instrum. Methods Phys. Res. A81 (22) 65 (Intensity correction factor for Camp et al. Data) - E. Schönfeld, H. Janssen. (22) (EMISSION (v..), a computer program for calculating emission probabilities of X-rays and Auger electrons.) - G.L.Molnar, ZS.Révay, T.Belgya. Proc.11th Int. Symp. On Capture gamma-ray Spectroscopy, 2-6 Sep 22, Pruhonice, Ed. J.Kvasil, P.Cejnar, M.Krticka. World Scientific (2) 522 (Gamma-ray emission intensities) - G.Audi, A.H.Wapstra, C.Thibault. Nucl. Phys. A729 (2) 7 (Q) LBNL, NPL /C.M. Baglin and T.D. MacMahon 8 9/9/2 9/2/25

9 CEA - LNHB - Table de Radionucléides γ Emission probabilities per 1 disintegrations ε β ; 77,26 (26) d 11 fs ,12,7, 8, ,2, , 2,2,6,8, ,2,,11,8,7 7,7 1,85 ; 58, (2-,,) ; 7,6 ; 9,82 ; 298,2 ; 119,89 ; 8,15,29,167,2159,688 9,9 16,86 7 ; 5,27 21,,8 5 ; 122,91 2 ; 2959,95 8,99,2 1,,86 2 ; 2657,527 2 ; 285,58 2, 18, ; 86,77,5,25 Stable Fe 26 Q = 6 % β % ε = 1 ; LBNL, NPL / C.M. Baglin and T.D. MacMahon Scheme page : 1/ 9/9/2-9/2/25

10 CEA - LNHB - Table de Radionucléides γ Emission probabilities per 1 disintegrations ε β ; 77,26 (26) d 55 fs 1 9 8,8 1,22,12,18,17 7,87,5,76,2 9,26,58,191,7, 1 5,5 1,8 ; 1,27 ; 8,799 ; 8,15 12,66,965 16,86 7 6,1,28 1 6,96 ; 5,27 2 ; 69,86 21,,15,8,6 5 ; 122,91 2 ; 2959,95 8,99,2 1,,86 2 ; 2657,527 2 ; 285,58 2, 18, ; 86,77,5,25 Stable Fe 26 Q = 6 % β % ε = 1 LBNL, NPL / C.M. Baglin and T.D. MacMahon Scheme page : 2/ 9/9/2-9/2/25 ;

11 CEA - LNHB - Table de Radionucléides γ Emission probabilities per 1 disintegrations ε β ; 77,26 (26) d 6 5,6,1 1,,118, ; 69,86 ; 122,91 2 ; 2959,95,15 8,99,2,6 1,,86,69,19 2 ; 2657, ,1 ; 285,58 2, 18, , ; 86,77,5,25 Stable Fe 26 Q = 6 % β % ε = 1 ; LBNL, NPL / C.M. Baglin and T.D. MacMahon Scheme page : / 9/9/2-9/2/25