ENTRY D4018 20060731 D060D401800000001 SUBENT D4018001 20060731 D060D401800100001 BIB 10 31 D401800100002 TITLE Excitation functions of some proton and deuteron D401800100003 induced reactions on iron and alpha-particle induced D401800100004 reactions on manganese in the energy region up to 25 D401800100005 MeV D401800100006 AUTHOR (S.Sudar,S.M.Qaim) D401800100007 INSTITUTE (3HUNKOS,2GERJUL) D401800100008 EXP-YEAR (1994) D401800100009 REFERENCE (J,PR/C,50,2408,1994) D401800100010 FACILITY (CYCLO,2GERJUL) D401800100011 METHOD (STTA,ACTIV,EXTB)decay data of the measured products D401800100012 were taken from e. Browne and r.B.Firestone, table of D401800100013 radioactive isotopes (V.S. Shirley, ed) wiley, new D401800100014 york, 1986. The energy of the primary beam was D401800100015 determined via measuring the distance between two beam D401800100016 bounces according to z. Kormany, nim a337,258,1994. D401800100017 the energy of the particles in each samples were D401800100018 obtained from range-energy formula (C.F.Williamson et D401800100019 Al.,Rapport CEA-R,3042,1966). When the covered energy D401800100020 range in a foil was significant considering the D401800100021 excitation functions of the investigated reactions D401800100022 derived from model calculation the energy degradation D401800100023 and the beam current along the stack were checked by D401800100024 monitor reactions. The average beam current were D401800100025 deduced from monitor reactions and from charge D401800100026 collection in a faraday cup. D401800100027 ANALYSIS (AREA) D401800100028 ERR-ANALYS (EN-ERR)the primary energy was measured by time of D401800100029 flight method and the uncertainty was +-0.15 Mev. D401800100030 HISTORY (19951025C) D401800100031 (19951031U) D401800100032 (20060730A) BIB section upgrated. Ref.corrected D401800100033 ENDBIB 31 0 D401800100034 NOCOMMON 0 0 D401800100035 ENDSUBENT 34 0 D401800199999 SUBENT D4018002 20060731 D048D401800200001 BIB 8 20 D401800200002 REACTION (26-FE-58(P,N)27-CO-58-G,M+,SIG) D401800200003 RAD-DET (27-CO-58-G,DG) D401800200004 DECAY-DATA (27-CO-58-G,70.92D,DG,810.8,0.9943) D401800200005 METHOD (EXTB,STTA,ACTIV) the primary proton energy used were: D401800200006 18.61 Mev and 14.87 Mev and had an uncertainty of +- D401800200007 0.15 Mev. High purity Cu and Ni foils were inserted D401800200008 into the stacks with different thicknesses allowing D401800200009 changes in the mean energies of the irradiated Fe D401800200010 samples. Four stacks were irradiated for 20-30 min. D401800200011 SAMPLE high purity 99.95% 25 Microns thick iron foils D401800200012 MONITOR 1(28-NI-0(P,X)27-CO-57,,SIG) D401800200013 (28-NI-0(P,X)27-CO-55,,SIG) D401800200014 (28-NI-0(P,X)28-NI-57,,SIG) D401800200015 2(29-CU-63(P,N)30-ZN-63,,SIG) D401800200016 3(29-CU-65(P,N)30-ZN-65,,SIG) D401800200017 MONIT-REF 1(,F.TARKANYI+,J,ARI,42,513,1991) D401800200018 2(,R.COLLE+,J,PR/C,9,1819,1974) D401800200019 3(,P.KOPECKY,J,ARI,36,657,1985) D401800200020 REL-REF (A,A0146012,R.MICHEL+,J,NP/A,322,40,1979) D401800200021 (A,A0145009,R.MICHEL+,J,JRC,59,467,1980) D401800200022 ENDBIB 20 0 D401800200023 NOCOMMON 0 0 D401800200024 DATA 4 26 D401800200025 EN EN-ERR DATA DATA-ERR D401800200026 MEV MEV MB MB D401800200027 3.54 0.21 27.8 3.0 D401800200028 4.90 0.2 164. 11. D401800200029 5.71 0.23 346. 51. D401800200030 6.48 0.22 455. 35. D401800200031 7.16 0.19 522. 43. D401800200032 7.48 0.21 524. 45. D401800200033 8.02 0.18 546. 54. D401800200034 8.13 0.2 619. 47. D401800200035 8.74 0.19 656. 48. D401800200036 8.81 0.17 584. 41. D401800200037 9.32 0.18 546. 80. D401800200038 10.11 0.17 753. 88. D401800200039 10.17 0.16 667. 55. D401800200040 10.63 0.16 819. 121. D401800200041 10.84 0.15 723. 56. D401800200042 10.98 0.19 643. 69. D401800200043 11.14 0.15 740. 97. D401800200044 11.21 0.19 741. 58. D401800200045 11.63 0.18 710. 56. D401800200046 11.86 0.18 754. 59. D401800200047 12.46 0.17 684. 54. D401800200048 12.48 0.17 705. 55. D401800200049 13.53 0.16 566. 45. D401800200050 13.55 0.16 543. 43. D401800200051 14.09 0.15 488. 38. D401800200052 14.12 0.15 458. 36. D401800200053 ENDDATA 28 0 D401800200054 ENDSUBENT 53 0 D401800299999 SUBENT D4018003 20060731 D048D401800300001 BIB 8 24 D401800300002 REACTION (26-FE-0(P,X)27-CO-57,,SIG) D401800300003 RAD-DET (27-CO-57,DG) D401800300004 DECAY-DATA (27-CO-57,271.74D,DG,122.06,0.855, D401800300005 DG,136.47,0.1069) D401800300006 METHOD (EXTB,STTA,ACTIV) the primary proton energy used were: D401800300007 18.61 Mev and 14.87 Mev and had an uncertainty of +- D401800300008 0.15 Mev. High purity Cu and Ni foils were inserted D401800300009 into the stacks with different thicknesses allowing D401800300010 changes in the mean energies of the irradiated Fe D401800300011 samples. Four stacks were irradiated for 20-30 min. D401800300012 SAMPLE high purity 99.95% 25 Microns thick iron foils D401800300013 MONITOR 1(28-NI-0(P,X)27-CO-57,,SIG) D401800300014 (28-NI-0(P,X)27-CO-55,,SIG) D401800300015 (28-NI-0(P,X)28-NI-57,,SIG) D401800300016 2(29-CU-63(P,N)30-ZN-63,,SIG) D401800300017 3(29-CU-65(P,N)30-ZN-65,,SIG) D401800300018 MONIT-REF 1(,F.TARKANYI+,J,ARI,42,513,1991) D401800300019 2(,R.COLLE+,J,PR/C,9,1819,1974) D401800300020 3(,P.KOPECKY,J,ARI,36,657,1985) D401800300021 REL-REF (A,A0146011,R.MICHEL+,J,NP/A,322,40,1979) D401800300022 (A,A0145009,R.MICHEL+,J,JRC,59,467,1980) D401800300023 (A,T0276005,N.C.SCHOEN+,J,PR/C,20,88,1979) D401800300024 (A,A0600002,W.Zhao+,J,CNP,15,337,1993) D401800300025 (A,,C.H.JOHNSON+,R,ORNL-2910,1960) D401800300026 ENDBIB 24 0 D401800300027 NOCOMMON 0 0 D401800300028 DATA 4 26 D401800300029 EN EN-ERR DATA DATA-ERR D401800300030 MEV MEV MB MB D401800300031 3.54 0.21 1.13 0.09 D401800300032 4.90 0.2 3.83 0.26 D401800300033 5.71 0.23 6.22 0.75 D401800300034 6.48 0.22 7.40 0.53 D401800300035 7.16 0.19 8.90 0.68 D401800300036 7.48 0.21 8.97 0.65 D401800300037 8.02 0.18 9.67 0.79 D401800300038 8.13 0.2 9.35 0.70 D401800300039 8.74 0.19 9.85 0.70 D401800300040 8.81 0.17 10.24 0.71 D401800300041 9.32 0.18 9.18 1.1 D401800300042 10.11 0.17 10.22 1.1 D401800300043 10.17 0.16 11.15 0.80 D401800300044 10.63 0.16 9.14 1.1 D401800300045 10.84 0.15 10.80 0.79 D401800300046 10.98 0.19 11.17 0.97 D401800300047 11.14 0.15 9.95 1.2 D401800300048 11.21 0.19 10.81 0.81 D401800300049 11.63 0.18 10.12 0.76 D401800300050 11.86 0.18 9.59 0.72 D401800300051 12.46 0.17 8.63 0.65 D401800300052 12.48 0.17 8.45 0.64 D401800300053 13.53 0.16 7.17 0.54 D401800300054 13.55 0.16 6.67 0.51 D401800300055 14.09 0.15 6.67 0.55 D401800300056 14.12 0.15 6.40 0.48 D401800300057 ENDDATA 28 0 D401800300058 ENDSUBENT 57 0 D401800399999 SUBENT D4018004 20060731 D048D401800400001 BIB 8 27 D401800400002 REACTION (26-FE-0(P,X)27-CO-56,,SIG) D401800400003 RAD-DET (27-CO-56,DG) D401800400004 DECAY-DATA (27-CO-56,77.7D,DG,846.81,0.99, D401800400005 DG,1238.31,0.67) D401800400006 METHOD (EXTB,STTA,ACTIV) the primary proton energy used were: D401800400007 18.61 Mev and 14.87 Mev and had an uncertainty of +- D401800400008 0.15 Mev. High purity Cu and Ni foils were inserted D401800400009 into the stacks with different thicknesses allowing D401800400010 changes in the mean energies of the irradiated Fe D401800400011 samples. Four stacks were irradiated for 20-30 min. D401800400012 SAMPLE high purity 99.95% 25 Microns thick iron foils D401800400013 MONITOR 1(28-NI-0(P,X)27-CO-57,,SIG) D401800400014 (28-NI-0(P,X)27-CO-55,,SIG) D401800400015 (28-NI-0(P,X)28-NI-57,,SIG) D401800400016 2(29-CU-63(P,N)30-ZN-63,,SIG) D401800400017 3(29-CU-65(P,N)30-ZN-65,,SIG) D401800400018 MONIT-REF 1(,F.TARKANYI+,J,ARI,42,513,1991) D401800400019 2(,R.COLLE+,J,PR/C,9,1819,1974) D401800400020 3(,P.KOPECKY,J,ARI,36,657,1985) D401800400021 REL-REF (A,B0041002,I.L.JENKINS+,J,JIN,32,1419,1970) D401800400022 (A,C0481020,P.DYER+,J,PR/C,23,1865,1981) D401800400023 (A,O0086007,J.N.BARRANDON,J,NIM,127,269,1975) D401800400024 (A,A0146010,R.MICHEL+,J,NP/A,322,40,1979) D401800400025 (A,A0145007,R.MICHEL+,J,JRC,59,467,1980) D401800400026 (A,T0276004,N.C.SCHOEN+,J,PR/C,20,88,1979) D401800400027 (A,A0600002,W.Zhao+,J,CNP,15,337,1993) D401800400028 (A,D4026002,S.TAKACS+,J,NIM/B,89,88,1994) D401800400029 ENDBIB 27 0 D401800400030 NOCOMMON 0 0 D401800400031 DATA 4 25 D401800400032 EN EN-ERR DATA DATA-ERR D401800400033 MEV MEV MB MB D401800400034 5.44 0.22 0.21 0.02 D401800400035 5.76 0.23 20.9 1.4 D401800400036 6.48 0.22 75. 5. D401800400037 7.16 0.19 127. 8. D401800400038 7.48 0.21 158. 10. D401800400039 8.02 0.18 192. 13. D401800400040 8.13 0.2 202. 13. D401800400041 8.74 0.19 234. 15. D401800400042 8.81 0.17 231. 15. D401800400043 9.32 0.18 262. 17. D401800400044 10.11 0.17 287. 19. D401800400045 10.17 0.16 304. 20. D401800400046 10.63 0.16 306. 20. D401800400047 10.84 0.15 334. 22. D401800400048 10.98 0.19 315. 26. D401800400049 11.14 0.15 305. 20. D401800400050 11.21 0.19 356. 29. D401800400051 11.63 0.18 341. 28. D401800400052 11.86 0.18 345. 28. D401800400053 12.46 0.17 350. 28. D401800400054 12.48 0.17 366. 30. D401800400055 13.53 0.16 360. 29. D401800400056 13.55 0.16 361. 29. D401800400057 14.09 0.15 335. 27. D401800400058 14.12 0.15 344. 28. D401800400059 ENDDATA 27 0 D401800400060 ENDSUBENT 59 0 D401800499999 SUBENT D4018005 20080520 D060D401800500001 BIB 9 23 D401800500002 REACTION (26-FE-57(P,A)25-MN-54,,SIG) D401800500003 RAD-DET (25-MN-54,DG) D401800500004 DECAY-DATA (25-MN-54,312.2D,DG,834.83,0.9997) D401800500005 METHOD (EXTB,STTA,ACTIV) the primary proton energy used were: D401800500006 18.61 Mev and 14.87 Mev and had an uncertainty of +- D401800500007 0.15 Mev. High purity Cu and Ni foils were inserted D401800500008 into the stacks with different thicknesses allowing D401800500009 changes in the mean energies of the irradiated Fe D401800500010 samples. Four stacks were irradiated for 20-30 min. D401800500011 SAMPLE high purity 99.95% 25 Microns thick iron foils D401800500012 MONITOR 1(28-NI-0(P,X)27-CO-57,,SIG) D401800500013 (28-NI-0(P,X)27-CO-55,,SIG) D401800500014 (28-NI-0(P,X)28-NI-57,,SIG) D401800500015 2(29-CU-63(P,N)30-ZN-63,,SIG) D401800500016 3(29-CU-65(P,N)30-ZN-65,,SIG) D401800500017 MONIT-REF 1(,F.Tarkanyi+,J,ARI,42,513,1991) D401800500018 2(,R.Colle+,J,PR/C,9,1819,1974) D401800500019 3(,P.Kopecky,J,ARI,36,657,1985) D401800500020 REL-REF (A,A0146015,R.Michel+,J,NP/A,322,40,1979) D401800500021 (A,A0145007,R.Michel+,J,JRC,59,467,1980) D401800500022 (A,A0600002,W.Zhao+,J,CNP,15,337,1993) D401800500023 (A,,V.N.Levkovskij+,J,AE,69,180,1990) D401800500024 HISTORY (20080520A) On. SF1 and SF3 corrected D401800500025 ENDBIB 23 0 D401800500026 NOCOMMON 0 0 D401800500027 DATA 4 10 D401800500028 EN EN-ERR DATA DATA-ERR D401800500029 MEV MEV MB MB D401800500030 10.98 0.19 25.1 5.4 D401800500031 11.21 0.19 24.8 5.1 D401800500032 11.63 0.18 26.2 5.4 D401800500033 11.86 0.18 29.3 5.4 D401800500034 12.46 0.17 31.3 4.8 D401800500035 12.48 0.17 28.7 6.0 D401800500036 13.53 0.16 34.3 4.3 D401800500037 13.55 0.16 37.2 6.6 D401800500038 14.09 0.15 39.6 10.7 D401800500039 14.12 0.15 35.0 4.1 D401800500040 ENDDATA 12 0 D401800500041 ENDSUBENT 40 0 D401800599999 SUBENT D4018006 20060731 D048D401800600001 BIB 7 14 D401800600002 REACTION (26-FE-0(D,X)27-CO-58-G,M+,SIG) D401800600003 RAD-DET (27-CO-58-G,DG) D401800600004 DECAY-DATA (27-CO-58-G,70.92D,DG,810.8,0.9943) D401800600005 METHOD (EXTB,STTA,ACTIV) the primary deuteron energy was: D401800600006 13.40 +-0.15 Mev. High purity Al foils were used as D401800600007 beam monitors and energy degraders. Four stacks were D401800600008 irradiated for 20-30 min. D401800600009 SAMPLE high purity 99.95% 25 Microns thick iron foils D401800600010 MONITOR 1(26-FE-56(D,N)27-CO-57,,SIG) D401800600011 2(13-AL-27(D,X)11-NA-24,,SIG) D401800600012 MONIT-REF 1(,T.ZHENLAN+,J,CST,5,506,1983) D401800600013 2(,H.F.ROEHM+,J,INC,31,3345,1969) D401800600014 (,H.F.ROEHM+,J,INC,32,2111,1970) - erratum to D401800600015 J,INC,31,3345,1969 D401800600016 ENDBIB 14 0 D401800600017 NOCOMMON 0 0 D401800600018 DATA 4 26 D401800600019 EN EN-ERR DATA DATA-ERR D401800600020 MEV MEV MB MB D401800600021 3.67 0.22 1.9 0.16 D401800600022 4.45 0.22 4.02 0.30 D401800600023 5.65 0.20 6.37 0.47 D401800600024 7.23 0.19 6.64 0.51 D401800600025 7.38 0.22 6.51 0.38 D401800600026 7.74 0.19 6.73 0.50 D401800600027 7.83 0.20 6.65 0.42 D401800600028 8.26 0.20 6.08 0.37 D401800600029 8.51 0.18 6.16 0.48 D401800600030 9.05 0.18 6.16 0.49 D401800600031 9.06 0.20 5.71 0.38 D401800600032 9.48 0.18 5.39 0.32 D401800600033 9.85 0.18 5.55 0.37 D401800600034 10.16 0.17 5.49 0.44 D401800600035 10.23 0.17 5.71 0.49 D401800600036 10.56 0.18 5.24 0.34 D401800600037 10.94 0.16 5.16 0.36 D401800600038 11.28 0.16 4.89 0.35 D401800600039 11.33 0.16 5.12 0.47 D401800600040 11.57 0.16 4.76 0.30 D401800600041 11.62 0.16 4.94 0.43 D401800600042 12.29 0.15 4.60 0.34 D401800600043 12.60 0.15 4.87 0.35 D401800600044 12.70 0.15 4.90 0.37 D401800600045 12.85 0.15 4.68 0.31 D401800600046 12.97 0.15 4.69 0.42 D401800600047 ENDDATA 28 0 D401800600048 ENDSUBENT 47 0 D401800699999 SUBENT D4018007 20060731 D048D401800700001 BIB 8 16 D401800700002 REACTION (26-FE-56(D,2N)27-CO-56,,SIG) D401800700003 RAD-DET (27-CO-56,DG) D401800700004 DECAY-DATA (27-CO-56,77.7D,DG,846.81,0.999, D401800700005 DG,1238.31,0.67) D401800700006 METHOD (EXTB,STTA,ACTIV) the primary deuteron energy was: D401800700007 13.40 +-0.15 Mev. High purity Al foils were used as D401800700008 beam monitors and energy degraders. Four stacks were D401800700009 irradiated for 20-30 min. D401800700010 SAMPLE high purity 99.95% 25 Microns thick iron foils D401800700011 MONITOR 1(26-FE-56(D,N)27-CO-57,,SIG) D401800700012 2(13-AL-27(D,X)11-NA-24,,SIG) D401800700013 MONIT-REF 1(,T.ZHENLAN+,J,CST,5,506,1983) D401800700014 2(,H.F.ROEHM+,J,INC,31,3345,1969) D401800700015 (,H.F.ROEHM+,J,INC,32,2111,1970) - erratum to D401800700016 J,INC,31,3345,1969 D401800700017 REL-REF (A,S0015004,T.ZHENLAN+,J,CST,5,506,1983) D401800700018 ENDBIB 16 0 D401800700019 NOCOMMON 0 0 D401800700020 DATA 4 22 D401800700021 EN EN-ERR DATA DATA-ERR D401800700022 MEV MEV MB MB D401800700023 7.87 0.21 0.32 0.05 D401800700024 8.00 0.24 0.31 0.06 D401800700025 8.17 0.20 0.64 0.05 D401800700026 8.26 0.20 3.01 0.21 D401800700027 8.62 0.18 10.2 0.8 D401800700028 9.05 0.18 26.6 1.9 D401800700029 9.06 0.20 20.6 1.3 D401800700030 9.48 0.18 37.6 2.1 D401800700031 9.85 0.18 70.6 4.5 D401800700032 10.16 0.17 69.8 4.9 D401800700033 10.23 0.17 100.3 7.1 D401800700034 10.56 0.18 119.0 7.2 D401800700035 10.94 0.16 138.4 7.8 D401800700036 11.28 0.16 163.3 10. D401800700037 11.33 0.16 173.4 12. D401800700038 11.57 0.16 180.4 11. D401800700039 11.62 0.16 141.5 10. D401800700040 12.29 0.15 220.2 12. D401800700041 12.60 0.15 232.0 15. D401800700042 12.70 0.15 246.0 17. D401800700043 12.85 0.15 248.5 15. D401800700044 12.97 0.15 233.0 16. D401800700045 ENDDATA 24 0 D401800700046 ENDSUBENT 45 0 D401800799999 SUBENT D4018008 20060731 D048D401800800001 BIB 8 15 D401800800002 REACTION (26-FE-56(D,A)25-MN-54,,SIG) D401800800003 RAD-DET (25-MN-54,DG) D401800800004 DECAY-DATA (25-MN-54,312.2D,DG,834.83,0.9997) D401800800005 METHOD (EXTB,STTA,ACTIV) the primary deuteron energy was: D401800800006 13.40 +-0.15 Mev. High purity Al foils were used as D401800800007 beam monitors and energy degraders. Four stacks were D401800800008 irradiated for 20-30 min. D401800800009 SAMPLE high purity 99.95% 25 Microns thick iron foils D401800800010 MONITOR 1(26-FE-56(D,N)27-CO-57,,SIG) D401800800011 2(13-AL-27(D,X)11-NA-24,,SIG) D401800800012 MONIT-REF 1(,T.ZHENLAN+,J,CST,5,506,1983) D401800800013 2(,H.F.ROEHM+,J,INC,31,3345,1969) D401800800014 (,H.F.ROEHM+,J,INC,32,2111,1970) - erratum to D401800800015 J,INC,31,3345,1969 D401800800016 REL-REF (A,S0015001,T.ZHENLAN+,J,CST,5,506,1983) D401800800017 ENDBIB 15 0 D401800800018 NOCOMMON 0 0 D401800800019 DATA 4 26 D401800800020 EN EN-ERR DATA DATA-ERR D401800800021 MEV MEV MB MB D401800800022 3.67 0.22 2.27 0.17 D401800800023 4.45 0.22 6.20 0.46 D401800800024 5.65 0.20 15.3 1.1 D401800800025 7.23 0.19 29.4 2.2 D401800800026 7.38 0.22 28.8 1.6 D401800800027 7.74 0.19 36.5 2.7 D401800800028 7.83 0.20 32.3 1.7 D401800800029 8.26 0.20 37.5 2.2 D401800800030 8.51 0.18 43.7 3.2 D401800800031 9.05 0.18 49.8 3.7 D401800800032 9.06 0.20 44.3 2.5 D401800800033 9.48 0.18 49.7 2.6 D401800800034 9.85 0.18 56.3 3.3 D401800800035 10.16 0.17 57.1 4.2 D401800800036 10.23 0.17 63.7 4.7 D401800800037 10.56 0.18 62.3 3.5 D401800800038 10.94 0.16 62.9 2.4 D401800800039 11.28 0.16 63.4 2.4 D401800800040 11.33 0.16 67.3 5.0 D401800800041 11.57 0.16 64.7 3.7 D401800800042 11.62 0.16 62.8 4.6 D401800800043 12.29 0.15 66.2 3.4 D401800800044 12.60 0.15 63.2 3.7 D401800800045 12.70 0.15 68.4 5.0 D401800800046 12.85 0.15 63.1 3.6 D401800800047 12.97 0.15 61.8 4.5 D401800800048 ENDDATA 28 0 D401800800049 ENDSUBENT 48 0 D401800899999 SUBENT D4018009 20060731 D048D401800900001 BIB 8 17 D401800900002 REACTION (25-MN-55(A,N)27-CO-58-G,M+,SIG) D401800900003 RAD-DET (27-CO-58-G,DG) D401800900004 DECAY-DATA (27-CO-58-G,70.92D,DG,810.8,0.9943) D401800900005 METHOD (EXTB,STTA,ACTIV) the primary deuteron energy was: D401800900006 26.70 +-0.15 Mev. High purity Cu foils were used as D401800900007 beam monitors and energy degraders. Four stacks were D401800900008 irradiated for 20-30 min. D401800900009 SAMPLE 20 microns thick Mn/Ni alloy D401800900010 composition: Mn 87.10 +-0.05% D401800900011 Ni 12.89 +-0.05% D401800900012 Fe 0.018 +-0.002% D401800900013 determined by : oes-icp D401800900014 MONITOR 1(29-CU-63(A,N)31-GA-66,,SIG) D401800900015 2(29-CU-63(A,N+P)30-ZN-65,,SIG) D401800900016 MONIT-REF 1(,E.A.BRYANT+,J,PR,130,1512,1963) D401800900017 2(,N.T.PORILE+,J,PR,116,1193,1954) D401800900018 REL-REF (A,,B.P.SINGH+,J,NC/A,104,475,1991) D401800900019 ENDBIB 17 0 D401800900020 NOCOMMON 0 0 D401800900021 DATA 4 14 D401800900022 EN EN-ERR DATA DATA-ERR D401800900023 MEV MEV MB MB D401800900024 7.06 0.30 12.98 0.91 D401800900025 8.46 0.29 136.4 9.5 D401800900026 9.29 0.28 234. 16. D401800900027 10.80 0.27 446. 31. D401800900028 12.02 0.25 525. 37. D401800900029 12.58 0.24 694. 48. D401800900030 15.22 0.23 642. 45. D401800900031 15.89 0.22 441. 31. D401800900032 16.73 0.21 493. 34. D401800900033 18.31 0.20 333. 23. D401800900034 19.82 0.18 232. 16. D401800900035 21.43 0.17 133.7 9.4 D401800900036 23.76 0.16 83.8 5.9 D401800900037 25.06 0.15 63.5 4.4 D401800900038 ENDDATA 16 0 D401800900039 ENDSUBENT 38 0 D401800999999 SUBENT D4018010 20060731 D048D401801000001 BIB 8 19 D401801000002 REACTION (25-MN-55(A,2N)27-CO-57,,SIG) D401801000003 RAD-DET (27-CO-57,DG) D401801000004 DECAY-DATA (27-CO-57,217.77D,DG,122.06,0.855, D401801000005 DG,136.47,0.1069) D401801000006 METHOD (EXTB,STTA,ACTIV) the primary deuteron energy was: D401801000007 26.70 +-0.15 Mev. High purity Cu foils were used as D401801000008 beam monitors and energy degraders. Four stacks were D401801000009 irradiated for 20-30 min. D401801000010 SAMPLE 20 microns thick Mn/Ni alloy D401801000011 composition: Mn 87.10 +-0.05% D401801000012 Ni 12.89 +-0.05% D401801000013 Fe 0.018 +-0.002% D401801000014 determined by : oes-icp D401801000015 MONITOR 1(29-CU-63(A,N)31-GA-66,,SIG) D401801000016 2(29-CU-63(A,N+P)30-ZN-65,,SIG) D401801000017 MONIT-REF 1(,E.A.BRYANT+,J,PR,130,1512,1963) D401801000018 2(,N.T.PORILE+,J,PR,116,1193,1954) D401801000019 REL-REF (A,,B.P.SINGH+,J,NC/A,104,475,1991) D401801000020 (A,P0056003,S.TANAKA+,J,JPJ,15,545,1960) D401801000021 ENDBIB 19 0 D401801000022 NOCOMMON 0 0 D401801000023 DATA 4 10 D401801000024 EN EN-ERR DATA DATA-ERR D401801000025 MEV MEV MB MB D401801000026 13.20 0.28 15.5 1.3 D401801000027 13.84 0.27 57.6 4.2 D401801000028 15.01 0.23 193. 14. D401801000029 15.81 0.22 252. 18. D401801000030 16.68 0.21 477. 33. D401801000031 18.28 0.20 568. 40. D401801000032 19.75 0.18 729. 51. D401801000033 21.37 0.17 673. 47. D401801000034 23.33 0.16 756. 53. D401801000035 25.52 0.15 802. 56. D401801000036 ENDDATA 12 0 D401801000037 ENDSUBENT 36 0 D401801099999 ENDENTRY 10 0 D401899999999