ENTRY F1477 20221215 F094F1477 0 1 SUBENT F1477001 20221215 F094F1477 1 1 BIB 12 28 F1477 1 2 TITLE Cross section of tritium production in structural F1477 1 3 materials of accelerator-driven facilities F1477 1 4 AUTHOR (Yu.E.Titarenko,M.V.Chauzova,K.V.Pavlov,S.V.Malinovsky,F1477 1 5 A.Yu.Titarenko,V.I.Rogov,V.F.Batyaev) F1477 1 6 INSTITUTE (4RUSITE) F1477 1 7 REFERENCE (J,PAN,84,1697,2021) F1477 1 8 #doi:10.1134/S1063778821100392 F1477 1 9 FACILITY (SYNCH,4RUSITE) U-10 F1477 1 10 METHOD (ACTIV) F1477 1 11 Tritium was extracted from the irradiated targets F1477 1 12 using a Sample Oxidizer. F1477 1 13 DETECTOR (SCIN) The activity of the extracted 3H was measured F1477 1 14 using a Quantilus 1220 low-background liquid F1477 1 15 scintillation spectrometer. F1477 1 16 MONITOR (13-AL-27(P,X)11-NA-22,,SIG) F1477 1 17 SAMPLE The targets were assembled as 'sandwiches' that F1477 1 18 consisted of a metal target and 27Al sample. The F1477 1 19 samples were irradiated as both individual and double F1477 1 20 'sandwiches'. The diameter of all targets was 10.5 mm, F1477 1 21 and the thickness of the samples ranged from 0.15 to F1477 1 22 0.87 mm. F1477 1 23 ERR-ANALYS (DATA-ERR) An error is mainly due to an uncertainty F1477 1 24 in determination of the value of a mean proton flux F1477 1 25 density. Uncertainties in calculating 3H production F1477 1 26 rate and geometrical correction factor are also F1477 1 27 included. F1477 1 28 STATUS (APRVD) Entry was approved by Dr. Yu.E.Titarenko F1477 1 29 HISTORY (20221215C) F1477 1 30 ENDBIB 28 0 F1477 1 31 NOCOMMON 0 0 F1477 1 32 ENDSUBENT 31 0 F1477 199999 SUBENT F1477002 20221215 F094F1477 2 1 BIB 2 2 F1477 2 2 REACTION (13-AL-27(P,X)1-H-3,,SIG) F1477 2 3 STATUS (TABLE) Tbl. 1 from Phys.At.Nuclei, 84,(10), 1697,2021 F1477 2 4 ENDBIB 2 0 F1477 2 5 NOCOMMON 0 0 F1477 2 6 DATA 4 11 F1477 2 7 EN EN-ERR DATA DATA-ERR F1477 2 8 MEV MEV MB MB F1477 2 9 2605. 8. 40.9 11.8 F1477 2 10 1599. 4. 45.6 12.0 F1477 2 11 1199. 3. 42.4 8.8 F1477 2 12 799. 2. 27.4 10.6 F1477 2 13 600. 2. 24.3 8.4 F1477 2 14 400. 2. 16.2 5.2 F1477 2 15 249. 1. 9.02 3.02 F1477 2 16 149. 1. 9.47 4.76 F1477 2 17 99. 1. 10.6 3.1 F1477 2 18 68. 1. 6.70 2.14 F1477 2 19 46. 1. 5.71 1.77 F1477 2 20 ENDDATA 13 0 F1477 2 21 ENDSUBENT 20 0 F1477 299999 SUBENT F1477003 20221215 F094F1477 3 1 BIB 2 2 F1477 3 2 REACTION (28-NI-0(P,X)1-H-3,,SIG) F1477 3 3 STATUS (TABLE) Tbl. 1 from Phys.At.Nuclei, 84,(10), 1697,2021 F1477 3 4 ENDBIB 2 0 F1477 3 5 NOCOMMON 0 0 F1477 3 6 DATA 4 11 F1477 3 7 EN EN-ERR DATA DATA-ERR F1477 3 8 MEV MEV MB MB F1477 3 9 2605. 8. 91.8 8.7 F1477 3 10 1599. 4. 93.7 9.2 F1477 3 11 1199. 3. 66.2 8.0 F1477 3 12 799. 2. 32.3 3.9 F1477 3 13 600. 2. 44.1 6.1 F1477 3 14 400. 2. 17.7 2.5 F1477 3 15 249. 1. 9.66 1.32 F1477 3 16 149. 1. 9.74 1.22 F1477 3 17 99. 1. 4.84 0.62 F1477 3 18 68. 1. 3.59 0.55 F1477 3 19 46. 1. 4.11 0.82 F1477 3 20 ENDDATA 13 0 F1477 3 21 ENDSUBENT 20 0 F1477 399999 SUBENT F1477004 20221215 F094F1477 4 1 BIB 2 2 F1477 4 2 REACTION (74-W-0(P,X)1-H-3,,SIG) F1477 4 3 STATUS (TABLE) Tbl. 1 from Phys.At.Nuclei, 84,(10), 1697,2021 F1477 4 4 ENDBIB 2 0 F1477 4 5 NOCOMMON 0 0 F1477 4 6 DATA 4 11 F1477 4 7 EN EN-ERR DATA DATA-ERR F1477 4 8 MEV MEV MB MB F1477 4 9 2605. 8. 867. 98. F1477 4 10 1599. 4. 467. 66. F1477 4 11 1199. 3. 378. 56. F1477 4 12 799. 2. 271. 39. F1477 4 13 600. 2. 197. 31. F1477 4 14 400. 2. 113. 19. F1477 4 15 249. 1. 49.6 6.4 F1477 4 16 149. 1. 44.1 4.4 F1477 4 17 99. 1. 31.5 4.4 F1477 4 18 68. 1. 18.9 2.4 F1477 4 19 46. 1. 13.1 1.9 F1477 4 20 ENDDATA 13 0 F1477 4 21 ENDSUBENT 20 0 F1477 499999 ENDENTRY 4 0 F147799999999