ENTRY A0617 20240113 A107A0617 0 1 SUBENT A0617001 20240113 A107A0617 1 1 BIB 14 49 A0617 1 2 TITLE (p,n) reaction cross sections on 115,116,120-Sn A0617 1 3 isotopes. A0617 1 4 AUTHOR (V.G.Batij, E.A.Skakun) A0617 1 5 INSTITUTE (4UKRKFT) A0617 1 6 REFERENCE (C,90LENING,,273,1990) A0617 1 7 (C,2006CERN,,(204),2006) data for reaction A0617 1 8 Sn-120(p,n)Sb-120-g were revised. A0617 1 9 SAMPLE The self-supporting metallic foils of (3-6) mg/cm2 A0617 1 10 thickness and 22 mm diameter made from enriched tin A0617 1 11 isotopes by electrolitic deposition technique. A0617 1 12 Enrichment of the targets were: 115Sn -51,2%, A0617 1 13 116Sn-92,8%,120Sn-96,5%. A0617 1 14 DETECTOR (GELI) The efficiency calibration was done using the A0617 1 15 standard radioactive sources 22Na,57Co, 60Co, 65Zn, A0617 1 16 113Sn, 137Cs and 241Am. A0617 1 17 FACILITY (LINAC,4UKRKFT) A0617 1 18 COMMENT *By authors*. The energy was decreased with pure A0617 1 19 aluminum foils-absorbers and, within small limits, alsoA0617 1 20 by the method of energy variation of linear acceleratorA0617 1 21 beams. The energy losses in the Al absorbers and tin A0617 1 22 targets were determined by a code calculating the A0617 1 23 energy degradation using the range-energy relation. A0617 1 24 *By compiler*. Sn-120(p,n)Sb-120-g was corrected by A0617 1 25 authors through adoption of a new branching ratio for A0617 1 26 the 1171 keV gamma-transition: Igamma=1.69%, A0617 1 27 delta-Igamma=0.09%. A0617 1 28 METHOD (ACTIV,BCINT,GSPEC) A0617 1 29 The beam current was measured with the charge A0617 1 30 integrator and typically amounted to 100-150 nA. A0617 1 31 (SITA) A0617 1 32 (STTA)for the production cross sections of the 120mSb A0617 1 33 isomer, irradiation time 8 hours. A0617 1 34 ERR-ANALYS (ERR-T) The typical total root-mean-squared A0617 1 35 uncertainty of each experimental cross section A0617 1 36 resulting from all individual errors (the density of A0617 1 37 target nuclei, incident proton beam current, detector A0617 1 38 efficiency, A0617 1 39 (ERR-S,7.,13.) counting statistics and decay data) was A0617 1 40 7-13%, for the reaction 116Sn(p,n)116Sb at the lowest A0617 1 41 energy point 30%. A0617 1 42 ANALYSIS (DECAY) A0617 1 43 ADD-RES Isomer+ground states production cross sections are A0617 1 44 given. A0617 1 45 STATUS (TABLE) Obtained from E. Skakun A0617 1 46 HISTORY (19990106C) By F.E. A0617 1 47 (19990318A) Date is corrected A0617 1 48 (20080219A) Data section in subent 006 were changed. A0617 1 49 (20090930A) Second Reference is corrected A0617 1 50 (20240113U) SD: Corrections in several Subents. A0617 1 51 ENDBIB 49 0 A0617 1 52 NOCOMMON 0 0 A0617 1 53 ENDSUBENT 52 0 A0617 199999 SUBENT A0617002 20240113 A107A0617 2 1 BIB 3 3 A0617 2 2 REACTION (50-SN-115(P,N)51-SB-115,,SIG) A0617 2 3 DECAY-DATA (51-SB-115,32.1MIN) A0617 2 4 HISTORY (20240113U) SD: DATA-ERR -> ERR-T. A0617 2 5 ENDBIB 3 0 A0617 2 6 NOCOMMON 0 0 A0617 2 7 DATA 3 10 A0617 2 8 EN DATA ERR-T A0617 2 9 MEV MB MB A0617 2 10 4.5 4.1 0.3 A0617 2 11 5. 9.9 0.7 A0617 2 12 5.5 30.9 2.4 A0617 2 13 6. 44. 4. A0617 2 14 6.5 101. 8. A0617 2 15 7. 141. 11. A0617 2 16 7.5 212. 16. A0617 2 17 8. 249. 19. A0617 2 18 8.5 335. 25. A0617 2 19 9. 390. 30. A0617 2 20 ENDDATA 12 0 A0617 2 21 ENDSUBENT 20 0 A0617 299999 SUBENT A0617003 20240113 A107A0617 3 1 BIB 4 5 A0617 3 2 REACTION (50-SN-116(P,N)51-SB-116-M,,SIG) A0617 3 3 DECAY-DATA (51-SB-116-M,1.005HR) Spin-Parity=8-. A0617 3 4 REL-REF (N,A0670001,E.A.Skakun+,J,ZP/A,344,13,1992) - isomeric A0617 3 5 ratio of 116Sn(p,n)Sb-116m/t presented on fig.4. A0617 3 6 HISTORY (20240113U) SD: REL-REF added. DATA-ERR -> ERR-T. A0617 3 7 ENDBIB 5 0 A0617 3 8 NOCOMMON 0 0 A0617 3 9 DATA 3 5 A0617 3 10 EN DATA ERR-T A0617 3 11 MEV MB MB A0617 3 12 7. 0.38 0.2 A0617 3 13 7.5 0.81 0.29 A0617 3 14 8. 1.4 0.3 A0617 3 15 8.5 4.3 0.6 A0617 3 16 9. 6.5 0.8 A0617 3 17 ENDDATA 7 0 A0617 3 18 ENDSUBENT 17 0 A0617 399999 SUBENT A0617004 20240113 A107A0617 4 1 BIB 3 3 A0617 4 2 REACTION (50-SN-116(P,N)51-SB-116-G,,SIG) A0617 4 3 DECAY-DATA (51-SB-116-G,15.8MIN) Spin-Parity=3+. A0617 4 4 HISTORY (20240113U) SD: DATA-ERR -> ERR-T. A0617 4 5 ENDBIB 3 0 A0617 4 6 NOCOMMON 0 0 A0617 4 7 DATA 3 8 A0617 4 8 EN DATA ERR-T A0617 4 9 MEV MB MB A0617 4 10 5.5 0.8 0.3 A0617 4 11 6. 28. 3. A0617 4 12 6.5 64. 8. A0617 4 13 7. 133. 15. A0617 4 14 7.5 178. 21. A0617 4 15 8. 195. 24. A0617 4 16 8.5 300. 40. A0617 4 17 9. 350. 40. A0617 4 18 ENDDATA 10 0 A0617 4 19 ENDSUBENT 18 0 A0617 499999 SUBENT A0617005 20240113 A107A0617 5 1 BIB 4 5 A0617 5 2 REACTION (50-SN-120(P,N)51-SB-120-M,,SIG) A0617 5 3 DECAY-DATA (51-SB-120-M,5.76D) Spin-Parity=8-. A0617 5 4 REL-REF (N,A0670001,E.A.Skakun+,J,ZP/A,344,13,1992) - isomeric A0617 5 5 ratio of 120Sn(p,n)Sb-120m/t presented on fig.4. A0617 5 6 HISTORY (20240113U) SD: REL-REF added. DATA-ERR -> ERR-T. A0617 5 7 ENDBIB 5 0 A0617 5 8 NOCOMMON 0 0 A0617 5 9 DATA 3 5 A0617 5 10 EN DATA ERR-T A0617 5 11 MEV MB MB A0617 5 12 6. 0.28 0.03 A0617 5 13 7.5 2.5 0.4 A0617 5 14 8. 7.1 0.6 A0617 5 15 8.5 8.2 0.6 A0617 5 16 9. 16.3 1.2 A0617 5 17 ENDDATA 7 0 A0617 5 18 ENDSUBENT 17 0 A0617 599999 SUBENT A0617006 20080708 A063A061700600001 BIB 2 2 A061700600002 REACTION (50-SN-120(P,N)51-SB-120-G,,SIG) A061700600003 DECAY-DATA (51-SB-120-G,15.89MIN) Spin-Parity=3+. A061700600004 ENDBIB 2 0 A061700600005 NOCOMMON 0 0 A061700600006 DATA 3 9 A061700600007 EN DATA ERR-T A061700600008 MEV MB MB A061700600009 5. 9.3 1.1 A061700600010 5.5 27.5 2.1 A061700600011 6. 52. 4. A061700600012 6.5 93. 7. A061700600013 7. 129. 9. A061700600014 7.5 167. 17. A061700600015 8. 297. 15. A061700600016 8.5 279. 20. A061700600017 9. 295. 22. A061700600018 ENDDATA 11 0 A061700600019 ENDSUBENT 18 0 A061700699999 ENDENTRY 6 0 A061799999999