ENTRY M1037 20250108 M135M1037 0 1 SUBENT M1037001 20250108 M135M1037 1 1 BIB 9 29 M1037 1 2 TITLE New evaluated data on photoneutron reaction cross M1037 1 3 sections for 60Ni nuclei. M1037 1 4 AUTHOR (V.V.Varlamov,A.I.Davydov,V.N.Orlin) M1037 1 5 REFERENCE (J,PAN,85,411,2022) M1037 1 6 #doi:10.1134/S1063778822050106 M1037 1 7 English translation of YF,85,316,2022. M1037 1 8 (J,YF,85,316,2022) M1037 1 9 #doi:10.31857/S0044002722050105 M1037 1 10 INSTITUTE (4RUSMOS) M1037 1 11 INC-SOURCE (QMPH,ARAD) M1037 1 12 ANALYSIS The joint analysis of the cross sections of total and M1037 1 13 partial (g,xn), (g,n) and (g,2n) reactions obtained M1037 1 14 in different experiments was carried out using an M1037 1 15 approach which consists in analyzing the systematic M1037 1 16 disagreement among data, attributed to the systematic M1037 1 17 uncertainties. Transitional multiplicity functions M1037 1 18 Fi-theor = SIG-theor(g,in)/SIG-theor(g,xn) M1037 1 19 were proposed in the framework of the combined M1037 1 20 photonucleon reaction model in order to evaluate M1037 1 21 photonuclear partial reaction cross sections using M1037 1 22 experimental neutron yields SIG-exp(g,xn), without M1037 1 23 the problems related to the neutron multiplicity M1037 1 24 sorting procedure M1037 1 25 SIG-eval(g,in) = Fi-theor x SIG-exp(g,xn). M1037 1 26 ERR-ANALYS (DATA-ERR) Mean-root-squared errors. M1037 1 27 STATUS (APRVD) Approved by V.Varlamov. M1037 1 28 HISTORY (20221019C) Data were compiled at the Russia MSU SINP M1037 1 29 CDFE by V.Varlamov. M1037 1 30 (20250108A) Corrected by V.Varlamov: DOI, STATUS. M1037 1 31 ENDBIB 29 0 M1037 1 32 NOCOMMON 0 0 M1037 1 33 ENDSUBENT 32 0 M1037 199999 SUBENT M1037002 20221019 M121M1037 2 1 BIB 4 24 M1037 2 2 REACTION ((28-NI-60(G,N)28-NI-59,,SIG,,,EVAL)+ M1037 2 3 (28-NI-60(G,N+P)27-CO-58,,SIG,,,EVAL)) M1037 2 4 ANALYSIS The contribution of partial reaction (g,1n) cross M1037 2 5 section into the experimental total neutron yield M1037 2 6 reaction (g,xn) cross section obtained using M1037 2 7 quasimonoenergetic annihilation photons at Livermore M1037 2 8 (USA) was evaluated using specially theoretically M1037 2 9 calculated transitional multiplicity function - M1037 2 10 ratio M1037 2 11 F1-theor = SIG-theor(g,1n)/SIG-theor(g,xn) M1037 2 12 by the way M1037 2 13 SIG-eval(g,1n) = (F1-theor)x(SIG-exp(g,xn)). M1037 2 14 REL-REF (R,L0034002,S.C.Fultz+,J,PR/C,10,608,1974) M1037 2 15 The neutron yield cross section of 58Ni(g,xn) reaction M1037 2 16 obtained at Livermore. M1037 2 17 (E,,B.S.Ishkhanov+,J,YF,71,517,2008) M1037 2 18 Theoretical combined model of photonuclear M1037 2 19 reactions - preequilibrium model based on the Fermi M1037 2 20 gas densities. M1037 2 21 STATUS (TABLE) Data presented in Fig. 3c M1037 2 22 of Phys.Atom.Nucl.85(2022)411. M1037 2 23 (DEP,L0034002) M1037 2 24 The neutron yield cross section of 58Ni(g,xn) reaction M1037 2 25 obtained at Livermore. M1037 2 26 ENDBIB 24 0 M1037 2 27 NOCOMMON 0 0 M1037 2 28 DATA 3 142 M1037 2 29 EN DATA DATA-ERR M1037 2 30 MEV MB MB M1037 2 31 11.37 -0.60 0.66 M1037 2 32 11.61 5.76 2.05 M1037 2 33 11.85 1.73 0.50 M1037 2 34 12.09 8.12 1.92 M1037 2 35 12.34 9.32 1.69 M1037 2 36 12.58 15.05 2.80 M1037 2 37 12.82 8.09 1.48 M1037 2 38 13.06 14.49 2.75 M1037 2 39 13.30 16.92 2.28 M1037 2 40 13.55 21.74 2.83 M1037 2 41 13.79 21.85 2.73 M1037 2 42 14.03 21.92 2.88 M1037 2 43 14.27 26.64 3.54 M1037 2 44 14.51 28.50 3.47 M1037 2 45 14.76 29.30 3.44 M1037 2 46 14.88 35.33 5.59 M1037 2 47 15.00 40.16 6.01 M1037 2 48 15.12 41.70 6.05 M1037 2 49 15.24 40.75 7.90 M1037 2 50 15.36 48.56 5.63 M1037 2 51 15.48 53.21 6.21 M1037 2 52 15.60 52.06 5.97 M1037 2 53 15.72 54.60 7.28 M1037 2 54 15.85 54.92 6.31 M1037 2 55 16.09 68.78 7.84 M1037 2 56 16.33 74.94 8.22 M1037 2 57 16.45 68.88 9.40 M1037 2 58 16.57 69.41 7.86 M1037 2 59 16.69 67.24 9.27 M1037 2 60 16.81 71.11 8.06 M1037 2 61 16.93 68.17 8.71 M1037 2 62 17.06 72.22 8.12 M1037 2 63 17.18 65.58 8.49 M1037 2 64 17.30 67.73 7.63 M1037 2 65 17.54 68.66 7.72 M1037 2 66 17.66 69.00 7.78 M1037 2 67 17.78 69.04 7.95 M1037 2 68 17.90 68.76 7.91 M1037 2 69 18.02 64.10 7.33 M1037 2 70 18.27 64.23 7.54 M1037 2 71 18.51 63.45 7.26 M1037 2 72 18.63 64.09 7.23 M1037 2 73 18.75 60.83 7.17 M1037 2 74 18.87 60.30 7.63 M1037 2 75 18.99 57.19 7.00 M1037 2 76 19.11 55.18 6.70 M1037 2 77 19.23 58.33 6.68 M1037 2 78 19.36 57.61 6.90 M1037 2 79 19.48 58.17 7.73 M1037 2 80 19.60 53.60 6.50 M1037 2 81 19.72 55.81 6.49 M1037 2 82 19.84 52.66 6.21 M1037 2 83 19.90 54.38 6.41 M1037 2 84 19.96 53.68 6.32 M1037 2 85 20.02 52.78 6.34 M1037 2 86 20.08 47.44 5.75 M1037 2 87 20.20 44.66 5.32 M1037 2 88 20.45 43.29 5.22 M1037 2 89 20.57 41.93 5.08 M1037 2 90 20.69 42.33 5.12 M1037 2 91 20.81 38.83 4.77 M1037 2 92 20.93 36.77 4.56 M1037 2 93 21.05 36.13 4.47 M1037 2 94 21.17 39.17 4.83 M1037 2 95 21.29 32.46 4.09 M1037 2 96 21.41 32.26 4.16 M1037 2 97 21.66 27.65 3.68 M1037 2 98 21.90 26.12 3.45 M1037 2 99 22.14 24.77 3.22 M1037 2 100 22.38 21.94 2.87 M1037 2 101 22.62 19.83 2.64 M1037 2 102 23.11 17.00 2.16 M1037 2 103 23.35 16.11 1.99 M1037 2 104 23.59 15.97 1.86 M1037 2 105 23.83 14.34 1.80 M1037 2 106 24.08 14.72 1.77 M1037 2 107 24.20 13.13 1.61 M1037 2 108 24.32 13.75 1.66 M1037 2 109 24.44 13.69 1.64 M1037 2 110 24.56 14.77 1.75 M1037 2 111 24.68 13.73 1.70 M1037 2 112 24.80 13.78 1.66 M1037 2 113 24.92 12.89 1.58 M1037 2 114 25.04 12.03 1.53 M1037 2 115 25.16 12.92 1.64 M1037 2 116 25.29 12.34 1.91 M1037 2 117 25.41 12.98 1.86 M1037 2 118 25.53 12.89 1.89 M1037 2 119 25.65 14.81 1.97 M1037 2 120 25.77 13.03 1.93 M1037 2 121 25.95 14.08 1.68 M1037 2 122 26.13 12.96 2.04 M1037 2 123 26.25 12.00 1.98 M1037 2 124 26.38 13.51 1.99 M1037 2 125 26.50 13.06 2.03 M1037 2 126 26.62 13.86 2.02 M1037 2 127 26.74 12.49 2.07 M1037 2 128 26.92 12.08 1.65 M1037 2 129 27.10 11.71 1.97 M1037 2 130 27.22 12.95 2.08 M1037 2 131 27.34 12.64 2.11 M1037 2 132 27.46 12.86 2.21 M1037 2 133 27.59 13.53 2.22 M1037 2 134 27.71 12.06 2.19 M1037 2 135 27.83 13.30 2.28 M1037 2 136 27.95 12.06 2.31 M1037 2 137 28.07 11.66 2.25 M1037 2 138 28.19 12.08 2.32 M1037 2 139 28.31 10.81 2.20 M1037 2 140 28.49 10.88 1.73 M1037 2 141 28.68 11.10 2.14 M1037 2 142 28.80 10.45 2.11 M1037 2 143 28.92 10.92 2.35 M1037 2 144 29.10 10.00 1.65 M1037 2 145 29.28 10.84 2.21 M1037 2 146 29.40 10.68 2.16 M1037 2 147 29.52 9.78 2.10 M1037 2 148 29.64 9.34 2.11 M1037 2 149 29.77 8.99 2.07 M1037 2 150 29.89 10.39 2.13 M1037 2 151 30.01 10.99 2.21 M1037 2 152 30.13 10.69 2.20 M1037 2 153 30.25 11.76 2.30 M1037 2 154 30.37 11.62 2.30 M1037 2 155 30.49 10.05 2.21 M1037 2 156 30.61 11.01 2.29 M1037 2 157 30.73 12.56 2.40 M1037 2 158 30.85 9.85 2.25 M1037 2 159 30.98 10.35 2.32 M1037 2 160 31.10 12.45 2.48 M1037 2 161 31.22 13.05 2.52 M1037 2 162 31.34 11.59 2.46 M1037 2 163 31.46 10.00 2.37 M1037 2 164 31.58 10.30 2.41 M1037 2 165 31.70 10.57 2.44 M1037 2 166 31.82 12.28 2.56 M1037 2 167 32.00 11.04 1.98 M1037 2 168 32.25 9.44 1.93 M1037 2 169 32.49 11.24 2.13 M1037 2 170 32.73 9.86 2.16 M1037 2 171 32.97 8.72 2.16 M1037 2 172 33.22 9.64 2.32 M1037 2 173 ENDDATA 144 0 M1037 2 174 ENDSUBENT 173 0 M1037 299999 SUBENT M1037003 20221019 M121M1037 3 1 BIB 4 23 M1037 3 2 REACTION (28-NI-60(G,2N)28-NI-58,,SIG,,,EVAL) M1037 3 3 ANALYSIS The contribution of partial reaction (g,2n) cross M1037 3 4 section into the experimental total neutron yield M1037 3 5 reaction (g,xn) cross section obtained using M1037 3 6 quasimonoenergetic annihilation photons at Livermore M1037 3 7 (USA) was evaluated using specially theoretically M1037 3 8 calculated transitional multiplicity function - M1037 3 9 ratio M1037 3 10 F2-theor = SIG-theor(g,2n)/SIG-theor(g,xn) M1037 3 11 by the way M1037 3 12 SIG-eval(g,2n) = (F2-theor)x(SIG-exp(g,xn)). M1037 3 13 REL-REF (R,L0034002,S.C.Fultz+,J,PR/C,10,608,1974) M1037 3 14 The neutron yield cross section of 58Ni(g,xn) reaction M1037 3 15 obtained at Livermore. M1037 3 16 (E,,B.S.Ishkhanov+,J,YF,71,517,2008) M1037 3 17 Theoretical combined model of photonuclear M1037 3 18 reactions - preequilibrium model based on the Fermi M1037 3 19 gas densities. M1037 3 20 STATUS (TABLE) Data presented in Fig. 3d M1037 3 21 of Phys.Atom.Nucl.85(2022)411. M1037 3 22 (DEP,L0034002) M1037 3 23 The neutron yield cross section of 58NI(g,xn) reaction M1037 3 24 obtained at Livermore. M1037 3 25 ENDBIB 23 0 M1037 3 26 NOCOMMON 0 0 M1037 3 27 DATA 3 95 M1037 3 28 EN DATA DATA-ERR M1037 3 29 MEV MB MB M1037 3 30 19.36 -0.01 0.00 M1037 3 31 19.48 -0.01 0.00 M1037 3 32 19.60 0.01 0.00 M1037 3 33 19.72 0.02 0.00 M1037 3 34 19.84 0.03 0.00 M1037 3 35 19.90 0.04 0.00 M1037 3 36 19.96 -0.01 0.00 M1037 3 37 20.02 -0.02 0.00 M1037 3 38 20.08 -0.03 0.00 M1037 3 39 20.20 -0.08 0.00 M1037 3 40 20.45 0.08 0.00 M1037 3 41 20.57 0.22 0.01 M1037 3 42 20.69 0.46 0.02 M1037 3 43 20.81 0.94 0.11 M1037 3 44 20.93 1.52 0.18 M1037 3 45 21.05 2.40 0.29 M1037 3 46 21.17 3.14 0.38 M1037 3 47 21.29 3.39 0.43 M1037 3 48 21.41 4.19 0.54 M1037 3 49 21.66 5.39 0.72 M1037 3 50 21.90 6.94 0.91 M1037 3 51 22.14 8.52 1.11 M1037 3 52 22.38 9.42 1.23 M1037 3 53 22.62 10.29 1.37 M1037 3 54 23.11 11.58 1.49 M1037 3 55 23.35 12.17 1.56 M1037 3 56 23.59 12.94 1.63 M1037 3 57 23.83 12.17 1.64 M1037 3 58 24.08 12.79 1.72 M1037 3 59 24.20 11.45 1.56 M1037 3 60 24.32 12.00 1.66 M1037 3 61 24.44 11.91 1.63 M1037 3 62 24.56 12.77 1.74 M1037 3 63 24.68 11.78 1.66 M1037 3 64 24.80 11.70 1.62 M1037 3 65 24.92 10.78 1.52 M1037 3 66 25.04 9.92 1.44 M1037 3 67 25.16 10.49 1.52 M1037 3 68 25.29 9.86 1.67 M1037 3 69 25.41 10.21 1.63 M1037 3 70 25.53 9.95 1.61 M1037 3 71 25.65 11.24 1.68 M1037 3 72 25.77 9.72 1.58 M1037 3 73 25.95 10.25 1.41 M1037 3 74 26.13 9.19 1.57 M1037 3 75 26.25 8.37 1.49 M1037 3 76 26.38 9.28 1.50 M1037 3 77 26.50 8.84 1.49 M1037 3 78 26.62 9.25 1.48 M1037 3 79 26.74 8.16 1.44 M1037 3 80 26.92 7.69 1.16 M1037 3 81 27.10 7.24 1.30 M1037 3 82 27.22 7.83 1.35 M1037 3 83 27.34 7.61 1.34 M1037 3 84 27.46 7.64 1.39 M1037 3 85 27.59 7.95 1.38 M1037 3 86 27.71 7.04 1.34 M1037 3 87 27.83 7.72 1.40 M1037 3 88 27.95 6.85 1.37 M1037 3 89 28.07 6.56 1.32 M1037 3 90 28.19 6.71 1.35 M1037 3 91 28.31 5.94 1.26 M1037 3 92 28.49 5.85 0.99 M1037 3 93 28.68 5.94 1.19 M1037 3 94 28.80 5.53 1.16 M1037 3 95 28.92 5.73 1.27 M1037 3 96 29.10 5.19 0.91 M1037 3 97 29.28 5.55 1.17 M1037 3 98 29.40 5.43 1.14 M1037 3 99 29.52 4.94 1.09 M1037 3 100 29.64 4.68 1.09 M1037 3 101 29.77 4.48 1.06 M1037 3 102 29.89 5.15 1.10 M1037 3 103 30.01 5.39 1.12 M1037 3 104 30.13 5.20 1.11 M1037 3 105 30.25 5.67 1.15 M1037 3 106 30.37 5.57 1.14 M1037 3 107 30.49 4.79 1.09 M1037 3 108 30.61 5.22 1.12 M1037 3 109 30.73 5.94 1.18 M1037 3 110 30.85 4.64 1.09 M1037 3 111 30.98 4.82 1.11 M1037 3 112 31.10 5.76 1.19 M1037 3 113 31.22 6.00 1.21 M1037 3 114 31.34 5.29 1.16 M1037 3 115 31.46 4.52 1.10 M1037 3 116 31.58 4.64 1.12 M1037 3 117 31.70 4.74 1.12 M1037 3 118 31.82 5.46 1.18 M1037 3 119 32.00 4.86 0.91 M1037 3 120 32.25 4.10 0.87 M1037 3 121 32.49 4.82 0.95 M1037 3 122 32.73 4.16 0.94 M1037 3 123 32.97 3.62 0.92 M1037 3 124 33.22 3.92 0.97 M1037 3 125 ENDDATA 97 0 M1037 3 126 ENDSUBENT 125 0 M1037 399999 SUBENT M1037004 20221019 M121M1037 4 1 BIB 3 11 M1037 4 2 REACTION (28-NI-60(G,X)0-NN-1,UNW,SIG,,,EVAL) M1037 4 3 ANALYSIS The cross section of the total neutron reaction M1037 4 4 SIGMA(g,tot) = SIGMA(g,1n)+SIGMA(G,1n1p)+SIGMA(g,2n) M1037 4 5 was obtained as the sum of SIGMA of the correspondent M1037 4 6 partial reactions. M1037 4 7 STATUS (TABLE) Data presented in Fig. 3b M1037 4 8 of Phys.Atom.Nucl.85(2022)411. M1037 4 9 (DEP,M1037002) M1037 4 10 The cross section of the reaction (g,1n)+(g,1n1p). M1037 4 11 (DEP,M1037003) M1037 4 12 The cross section of the reaction (g,2n). M1037 4 13 ENDBIB 11 0 M1037 4 14 NOCOMMON 0 0 M1037 4 15 DATA 3 142 M1037 4 16 EN DATA DATA-ERR M1037 4 17 MEV MB MB M1037 4 18 11.37 -0.60 0.66 M1037 4 19 11.61 5.76 2.05 M1037 4 20 11.85 1.73 0.50 M1037 4 21 12.09 8.12 1.92 M1037 4 22 12.34 9.32 1.69 M1037 4 23 12.58 15.05 2.80 M1037 4 24 12.82 8.09 1.48 M1037 4 25 13.06 14.49 2.75 M1037 4 26 13.30 16.92 2.28 M1037 4 27 13.55 21.74 2.83 M1037 4 28 13.79 21.85 2.73 M1037 4 29 14.03 21.92 2.88 M1037 4 30 14.27 26.64 3.54 M1037 4 31 14.51 28.50 3.47 M1037 4 32 14.76 29.30 3.44 M1037 4 33 14.88 35.33 5.59 M1037 4 34 15.00 40.16 6.01 M1037 4 35 15.12 41.70 6.05 M1037 4 36 15.24 40.75 7.90 M1037 4 37 15.36 48.56 5.63 M1037 4 38 15.48 53.21 6.21 M1037 4 39 15.60 52.06 5.97 M1037 4 40 15.72 54.60 7.28 M1037 4 41 15.85 54.92 6.31 M1037 4 42 16.09 68.78 7.84 M1037 4 43 16.33 74.94 8.22 M1037 4 44 16.45 68.88 9.40 M1037 4 45 16.57 69.41 7.86 M1037 4 46 16.69 67.24 9.27 M1037 4 47 16.81 71.11 8.06 M1037 4 48 16.93 68.17 8.71 M1037 4 49 17.06 72.22 8.12 M1037 4 50 17.18 65.58 8.49 M1037 4 51 17.30 67.73 7.63 M1037 4 52 17.54 68.66 7.72 M1037 4 53 17.66 69.00 7.78 M1037 4 54 17.78 69.04 7.95 M1037 4 55 17.90 68.76 7.91 M1037 4 56 18.02 64.10 7.33 M1037 4 57 18.27 64.23 7.54 M1037 4 58 18.51 63.45 7.26 M1037 4 59 18.63 64.09 7.23 M1037 4 60 18.75 60.83 7.17 M1037 4 61 18.87 60.30 7.63 M1037 4 62 18.99 57.19 7.00 M1037 4 63 19.11 55.18 6.70 M1037 4 64 19.23 58.33 6.68 M1037 4 65 19.36 57.61 6.90 M1037 4 66 19.48 58.16 7.73 M1037 4 67 19.60 53.60 6.50 M1037 4 68 19.72 55.83 6.49 M1037 4 69 19.84 52.69 6.21 M1037 4 70 19.90 54.43 6.41 M1037 4 71 19.96 53.67 6.32 M1037 4 72 20.02 52.76 6.34 M1037 4 73 20.08 47.41 5.75 M1037 4 74 20.20 44.58 5.32 M1037 4 75 20.45 43.38 5.22 M1037 4 76 20.57 42.15 5.08 M1037 4 77 20.69 42.79 5.12 M1037 4 78 20.81 39.77 4.78 M1037 4 79 20.93 38.29 4.56 M1037 4 80 21.05 38.53 4.48 M1037 4 81 21.17 42.30 4.84 M1037 4 82 21.29 35.84 4.12 M1037 4 83 21.41 36.45 4.19 M1037 4 84 21.66 33.03 3.75 M1037 4 85 21.90 33.06 3.57 M1037 4 86 22.14 33.29 3.40 M1037 4 87 22.38 31.36 3.12 M1037 4 88 22.62 30.13 2.97 M1037 4 89 23.11 28.59 2.62 M1037 4 90 23.35 28.28 2.52 M1037 4 91 23.59 28.91 2.47 M1037 4 92 23.83 26.52 2.43 M1037 4 93 24.08 27.51 2.47 M1037 4 94 24.20 24.58 2.24 M1037 4 95 24.32 25.75 2.34 M1037 4 96 24.44 25.59 2.31 M1037 4 97 24.56 27.55 2.47 M1037 4 98 24.68 25.51 2.37 M1037 4 99 24.80 25.48 2.32 M1037 4 100 24.92 23.67 2.19 M1037 4 101 25.04 21.95 2.10 M1037 4 102 25.16 23.41 2.24 M1037 4 103 25.29 22.20 2.54 M1037 4 104 25.41 23.19 2.47 M1037 4 105 25.53 22.84 2.49 M1037 4 106 25.65 26.05 2.59 M1037 4 107 25.77 22.74 2.49 M1037 4 108 25.95 24.33 2.19 M1037 4 109 26.13 22.14 2.58 M1037 4 110 26.25 20.38 2.47 M1037 4 111 26.38 22.79 2.49 M1037 4 112 26.50 21.91 2.52 M1037 4 113 26.62 23.11 2.50 M1037 4 114 26.74 20.66 2.52 M1037 4 115 26.92 19.76 2.02 M1037 4 116 27.10 18.95 2.36 M1037 4 117 27.22 20.78 2.48 M1037 4 118 27.34 20.25 2.50 M1037 4 119 27.46 20.50 2.61 M1037 4 120 27.59 21.49 2.61 M1037 4 121 27.71 19.10 2.57 M1037 4 122 27.83 21.03 2.68 M1037 4 123 27.95 18.92 2.69 M1037 4 124 28.07 18.22 2.61 M1037 4 125 28.19 18.79 2.68 M1037 4 126 28.31 16.75 2.53 M1037 4 127 28.49 16.74 1.99 M1037 4 128 28.68 17.04 2.45 M1037 4 129 28.80 15.98 2.40 M1037 4 130 28.92 16.66 2.67 M1037 4 131 29.10 15.19 1.89 M1037 4 132 29.28 16.39 2.50 M1037 4 133 29.40 16.11 2.45 M1037 4 134 29.52 14.72 2.36 M1037 4 135 29.64 14.02 2.38 M1037 4 136 29.77 13.47 2.32 M1037 4 137 29.89 15.54 2.40 M1037 4 138 30.01 16.38 2.48 M1037 4 139 30.13 15.88 2.46 M1037 4 140 30.25 17.43 2.57 M1037 4 141 30.37 17.20 2.57 M1037 4 142 30.49 14.84 2.46 M1037 4 143 30.61 16.23 2.55 M1037 4 144 30.73 18.50 2.68 M1037 4 145 30.85 14.49 2.50 M1037 4 146 30.98 15.18 2.57 M1037 4 147 31.10 18.21 2.75 M1037 4 148 31.22 19.04 2.80 M1037 4 149 31.34 16.87 2.72 M1037 4 150 31.46 14.52 2.62 M1037 4 151 31.58 14.95 2.66 M1037 4 152 31.70 15.31 2.69 M1037 4 153 31.82 17.74 2.82 M1037 4 154 32.00 15.90 2.18 M1037 4 155 32.25 13.55 2.11 M1037 4 156 32.49 16.05 2.33 M1037 4 157 32.73 14.03 2.36 M1037 4 158 32.97 12.33 2.35 M1037 4 159 33.22 13.56 2.52 M1037 4 160 ENDDATA 144 0 M1037 4 161 ENDSUBENT 160 0 M1037 499999 SUBENT M1037005 20250108 M135M1037 5 1 BIB 4 7 M1037 5 2 REACTION (28-NI-60(G,X)0-NN-1,UNW,INT,,,DERIV) M1037 5 3 ANALYSIS Integration of evaluated cross section. M1037 5 4 STATUS (DEP,M1037004) M1037 5 5 Evaluated reaction cross section. M1037 5 6 (TABLE,,V.V.Varlamov+,J,PAN,85,411,2022) M1037 5 7 Data presented in Table 2. M1037 5 8 HISTORY (20250108U) Corrected by V.Varlamov: STATUS. M1037 5 9 ENDBIB 7 0 M1037 5 10 NOCOMMON 0 0 M1037 5 11 DATA 3 29 M1037 5 12 EN-MAX DATA DATA-ERR M1037 5 13 MEV MB*MEV MB*MEV M1037 5 14 20.4 387.69 4.98 M1037 5 15 30.0 628.37 5.64 M1037 5 16 ENDDATA 4 0 M1037 5 17 ENDSUBENT 16 0 M1037 599999 SUBENT M1037006 20250108 M135M1037 6 1 BIB 4 8 M1037 6 2 REACTION ((28-NI-60(G,N)28-NI-59,,INT,,,DERIV)+ M1037 6 3 (28-NI-60(G,N+P)27-CO-58,,INT,,,DERIV)) M1037 6 4 ANALYSIS Integration of evaluated cross section. M1037 6 5 STATUS (DEP,M1037002) M1037 6 6 Evaluated reaction cross section. M1037 6 7 (TABLE,,V.V.Varlamov+,J,PAN,85,411,2022) M1037 6 8 Data presented in Table 2. M1037 6 9 HISTORY (20250108U) Corrected by V.Varlamov: STATUS. M1037 6 10 ENDBIB 8 0 M1037 6 11 NOCOMMON 0 0 M1037 6 12 DATA 3 29 M1037 6 13 EN-MAX DATA DATA-ERR M1037 6 14 MEV MB*MEV MB*MEV M1037 6 15 20.4 387.69 4.98 M1037 6 16 30.0 551.85 5.51 M1037 6 17 ENDDATA 4 0 M1037 6 18 ENDSUBENT 17 0 M1037 699999 SUBENT M1037007 20250108 M135M1037 7 1 BIB 4 7 M1037 7 2 REACTION (28-NI-60(G,2N)28-NI-58,,INT,,,DERIV) M1037 7 3 ANALYSIS Integration of evaluated cross section. M1037 7 4 STATUS (DEP,M1037003) M1037 7 5 Evaluated reaction cross section. M1037 7 6 (TABLE,,V.V.Varlamov+,J,PAN,85,411,2022) M1037 7 7 Data presented in Table 2. M1037 7 8 HISTORY (20250108U) Corrected by V.Varlamov: STATUS. M1037 7 9 ENDBIB 7 0 M1037 7 10 NOCOMMON 0 0 M1037 7 11 DATA 3 19 M1037 7 12 EN-MAX DATA DATA-ERR M1037 7 13 MEV MB*MEV MB*MEV M1037 7 14 30.0 76.52 1.21 M1037 7 15 ENDDATA 3 0 M1037 7 16 ENDSUBENT 15 0 M1037 799999 ENDENTRY 7 0 M103799999999