ENTRY M1055 20250325 M136M1055 0 1 SUBENT M1055001 20250325 M136M1055 1 1 BIB 13 36 M1055 1 2 TITLE Some results of 209Bi photoactivation experiment. M1055 1 3 AUTHOR (M.Krmar,R.Smolovich,N.Jovancevic,D.Maletic,Y.Teterev, M1055 1 4 S.Mitrofanov,K.D.Timoshenko,S.I.Alexeev,H.Marukyan, M1055 1 5 A.Hakobyan) M1055 1 6 REFERENCE (J,EPJ/A,61,20,2025) M1055 1 7 INSTITUTE (3SRBSRB) Institute of Physics, Belgrade 11000, M1055 1 8 Physics Department, Faculty of Science, University M1055 1 9 Novi Sad, Novi Sad, Serbia. M1055 1 10 Institute of Physics, Novi Sad, Serbia. M1055 1 11 (4ZZZDUB) Flrerov Laboratory of Nuclear Reactions, M1055 1 12 Joint Institute for Nuclear Reseasrch, Dubna, Russia. M1055 1 13 (4ARMJER) M1055 1 14 FACILITY (LINAC,4ARMJER) The linear electron accelerator LUE-75 M1055 1 15 of the Alikhanian National Science Laboratory, M1055 1 16 Yerevan, Armenia) M1055 1 17 INC-SOURCE (BRST) Bremsstrahlung with end-point energies 40, 50 M1055 1 18 and 60 MeV. M1055 1 19 SAMPLE Natural bismuth targets (diameter 1 sm, mass 1.10 g) M1055 1 20 DETECTOR (HPGE) HPGe detector (GEM15P4-70),Ortec, p-type, M1055 1 21 relative efficiency 30%. M1055 1 22 METHOD (GSPEC) M1055 1 23 ANALYSIS Flux-averaged cross sections were expressed in M1055 1 24 accordance with equation (2) of the article and the M1055 1 25 slightly simplified approach was used in accordance M1055 1 26 with equation (3) of the articles for 197Au target. M1055 1 27 ERR-ANALYS (DATA-ERR) The experimental uncertaintie mostly M1055 1 28 originate from the cross section uncertainty for the M1055 1 29 197Au(g,n)196Au reaction. Gold foils and reaction M1055 1 30 197Au(g,n)196Au were used in order to normalize M1055 1 31 intensity of the photon beam. The measured saturation M1055 1 32 activity of gold was used in accordance with equation M1055 1 33 (3) of the article. M1055 1 34 CRITIQUE The information on the source of the data for reaction M1055 1 35 197Au(g,n)196Au is absent. M1055 1 36 HISTORY (20250325C) Data compiled at the Russia MSU SINP CDFE M1055 1 37 by V.Varlamov. M1055 1 38 ENDBIB 36 0 M1055 1 39 NOCOMMON 0 0 M1055 1 40 ENDSUBENT 39 0 M1055 199999 SUBENT M1055002 20250325 M136M1055 2 1 BIB 4 10 M1055 2 2 REACTION (83-BI-209(G,4N)83-BI-205,,SIG,,BRS) M1055 2 3 Flux-averaged cross section. M1055 2 4 DECAY-DATA (83-BI-205,15.31D,DG,703.5,0.31, M1055 2 5 DG,987.2,0.1613, M1055 2 6 DG,1764.4,0.325) M1055 2 7 Data from table 1. M1055 2 8 STATUS (TABLE,,M.Krmar+,J,EPJ/A,61,20,2025) M1055 2 9 Data from table 3. M1055 2 10 CRITIQUE In table 1 for final nucleus 205Bi the reaction (g,4n) M1055 2 11 should be presented, not (g,3n). M1055 2 12 ENDBIB 10 0 M1055 2 13 NOCOMMON 0 0 M1055 2 14 DATA 3 3 M1055 2 15 EN-MAX DATA DATA-ERR M1055 2 16 MEV MB MB M1055 2 17 40.0 4.9 0.5 M1055 2 18 50.0 6.6 0.7 M1055 2 19 60.0 5.0 0.5 M1055 2 20 ENDDATA 5 0 M1055 2 21 ENDSUBENT 20 0 M1055 299999 SUBENT M1055003 20250325 M136M1055 3 1 BIB 3 8 M1055 3 2 REACTION (83-BI-209(G,3N)83-BI-206,,SIG,,BRS) M1055 3 3 Flux-averaged cross section. M1055 3 4 DECAY-DATA (83-BI-206,6.243D,DG,343.5,0.234, M1055 3 5 DG,803.1,0.99, M1055 3 6 DG,881.9,0.663) M1055 3 7 Data from table 1. M1055 3 8 STATUS (TABLE,,M.Krmar+,J,EPJ/A,61,20,2025) M1055 3 9 Data from table 3. M1055 3 10 ENDBIB 8 0 M1055 3 11 NOCOMMON 0 0 M1055 3 12 DATA 3 3 M1055 3 13 EN-MAX DATA DATA-ERR M1055 3 14 MEV MB MB M1055 3 15 40.0 10.0 0.1 M1055 3 16 50.0 10.0 0.1 M1055 3 17 60.0 8.0 0.1 M1055 3 18 ENDDATA 5 0 M1055 3 19 ENDSUBENT 18 0 M1055 399999 ENDENTRY 3 0 M105599999999