ENTRY C3038 20250228 C249C3038000 1 SUBENT C3038001 20250228 C249C3038001 1 BIB 10 29 C3038001 2 TITLE Proton- and deuteron-induced cross sections on C3038001 3 natural platinum C3038001 4 AUTHOR (J.T.Wilkinson,S.J.Tumey,K.J.Moody,T.A.Brown, C3038001 5 N.Gharibyan) C3038001 6 REFERENCE (J,ARI,217,111618,2025) C3038001 7 #doi:10.1016/j.apradiso.2024.111618 C3038001 8 INSTITUTE (1USALRL) C3038001 9 FACILITY (VDGT,1USALRL) The Lawrence Livermore National C3038001 10 Laboratory's Center for Accelerator Mass Spectrometry C3038001 11 using the High Voltage Engineering Europa 10 MV C3038001 12 modified FN-model tandem accelerator. C3038001 13 DETECTOR (HPGE) High purity germanium detectors (HPGe) were C3038001 14 employed in the acquisition of spectral data as C3038001 15 singles counts. The detectors used varied but had C3038001 16 relative efficiencies between 13 and 33% with C3038001 17 full-width halfmaximum resolutions of 0.675-0.900 keV C3038001 18 and 1.66-1.74 keV at 122 and 1332 keV, respectively. C3038001 19 The gamma spectra were collected for each foil over a C3038001 20 series of weeks. Spectral analysis was performed C3038001 21 using the GAMANAL code. C3038001 22 METHOD (ACTIV,STTA) C3038001 23 ERR-ANALYS (DATA-ERR) The uncertainties affiliated with each C3038001 24 experimentally mined value are 1 sigma and represent C3038001 25 a total uncertainty of combined counting statistics, C3038001 26 nuclear data, and systematic values. C3038001 27 CORRECTION Absorber attenuation correction for a given C3038001 28 photopeak. The GAMANAL code also performs a detector C3038001 29 background correction based on previous counts, C3038001 30 HISTORY (20250228C) BP C3038001 31 ENDBIB 29 0 C3038001 32 NOCOMMON 0 0 C3038001 33 ENDSUBENT 32 0 C303800199999 SUBENT C3038002 20250228 C249C3038002 1 BIB 4 37 C3038002 2 REACTION (78-PT-0(P,X)ELEM/MASS,,SIG) C3038002 3 SAMPLE For the proton irradiation, a sequence of C3038002 4 Ta-Y-Ta-Pt-Pt-Pt-Ta-Y-Ta foils was used. The tantalum C3038002 5 foils were 16.4 mg/cm2 and served to both degrade the C3038002 6 incident ion energy and catch recoiled atoms from C3038002 7 adjacent foils. The target platinum foils were each C3038002 8 53.8 mg/cm2 and the yttrium monitor foils were 2.24 C3038002 9 mg/cm2. C3038002 10 DECAY-DATA ((1.)79-AU-190-G,42.8MIN,DG,295.8,0.90, C3038002 11 DG,301.8,0.30, C3038002 12 DG,597.7,0.12) C3038002 13 ((2.)79-AU-191-G,3.18HR,DG,586.4,0.15, C3038002 14 DG,277.9,0.064, C3038002 15 DG,674.2,0.06) C3038002 16 ((3.)79-AU-192-G,4.94HR,DG,316.5,0.59, C3038002 17 DG,296.0,0.23, C3038002 18 DG,2237.3,0.047) C3038002 19 ((4.)79-AU-193-G,17.7HR,DG,186.2,0.097, C3038002 20 DG,255.6,0.065, C3038002 21 DG,268.2,0.038) C3038002 22 ((5.)79-AU-194-G,38.0HR,DG,328.5,0.628, C3038002 23 DG,293.5,0.109, C3038002 24 DG,1468.9,0.068) C3038002 25 ((6.)79-AU-195-G,186.0D,DG,98.9,0.1121, C3038002 26 DG,29.7,0.0084, C3038002 27 DG,30.9,0.0077) C3038002 28 ((7.)79-AU-196-G,6.17D,DG,355.7,0.87, C3038002 29 DG,333.0,0.229, C3038002 30 DG,426.1,0.066) C3038002 31 ((8.)79-AU-196-M2,9.6HR,DG,147.8,0.435, C3038002 32 DG,188.3,0.30, C3038002 33 DG,168.4,0.078) C3038002 34 ((9.)79-AU-198-G,2.69D,DG,411.8,0.9562) C3038002 35 ((10.)79-AU-198-M,2.27D,DG,214.9,0.77, C3038002 36 DG,97.2,0.69, C3038002 37 DG,180.3,0.49) C3038002 38 STATUS (TABLE,,J.T.Wilkinson+,J,ARI,217,111618,2025) Table 3 C3038002 39 ENDBIB 37 0 C3038002 40 NOCOMMON 0 0 C3038002 41 DATA 10 30 C3038002 42 EN EN-RSL ELEMENT MASS ISOMER ISOMER C3038002 43 DATA DATA-ERR DATA-MAX DECAY-FLAG C3038002 44 MEV MEV NO-DIM NO-DIM NO-DIM NO-DIM C3038002 45 MB MB MB NO-DIM C3038002 46 10.2 0.5 79.0 190. C3038002 47 0.0446 0.0108 1. C3038002 48 10.2 0.5 79.0 191. C3038002 49 0.0016 2. C3038002 50 10.2 0.5 79.0 192. C3038002 51 2.02 0.26 3. C3038002 52 10.2 0.5 79.0 193. C3038002 53 3.45 0.41 4. C3038002 54 10.2 0.5 79.0 194. C3038002 55 103. 7. 5. C3038002 56 10.2 0.5 79.0 195. C3038002 57 88.3 7.1 6. C3038002 58 10.2 0.5 79.0 196. 0. 1.C3038002 59 29.6 0.8 7. C3038002 60 10.2 0.5 79.0 196. 2. C3038002 61 0.242 0.028 8. C3038002 62 10.2 0.5 79.0 198. 0. C3038002 63 3.79 0.08 9. C3038002 64 10.2 0.5 79.0 198. 1. C3038002 65 0.0154 0.003 10. C3038002 66 11.1 0.5 79.0 190. C3038002 67 0.0483 0.0161 1. C3038002 68 11.1 0.5 79.0 191. C3038002 69 0.0357 0.0082 2. C3038002 70 11.1 0.5 79.0 192. C3038002 71 3.03 0.38 3. C3038002 72 11.1 0.5 79.0 193. C3038002 73 23.2 2.7 4. C3038002 74 11.1 0.5 79.0 194. C3038002 75 163. 11. 5. C3038002 76 11.1 0.5 79.0 195. C3038002 77 120. 10. 6. C3038002 78 11.1 0.5 79.0 196. 0. 1.C3038002 79 27.5 0.7 7. C3038002 80 11.1 0.5 79.0 196. 2. C3038002 81 0.334 0.041 8. C3038002 82 11.1 0.5 79.0 198. 0. C3038002 83 3.33 0.07 9. C3038002 84 11.1 0.5 79.0 198. 1. C3038002 85 0.0263 0.0084 10. C3038002 86 12.0 0.4 79.0 190. C3038002 87 0.0717 0.0184 1. C3038002 88 12.0 0.4 79.0 191. C3038002 89 0.48 0.02 2. C3038002 90 12.0 0.4 79.0 192. C3038002 91 3.4 0.43 3. C3038002 92 12.0 0.4 79.0 193. C3038002 93 55.9 6.6 4. C3038002 94 12.0 0.4 79.0 194. C3038002 95 211. 14. 5. C3038002 96 12.0 0.4 79.0 195. C3038002 97 155. 12. 6. C3038002 98 12.0 0.4 79.0 196. 0. 1.C3038002 99 21.7 0.6 7. C3038002 100 12.0 0.4 79.0 196. 2. C3038002 101 0.531 0.061 8. C3038002 102 12.0 0.4 79.0 198. 0. C3038002 103 2.83 0.06 9. C3038002 104 12.0 0.4 79.0 198. 1. C3038002 105 0.0294 0.0078 10. C3038002 106 ENDDATA 64 0 C3038002 107 ENDSUBENT 106 0 C303800299999 SUBENT C3038003 20250228 C249C3038003 1 BIB 4 51 C3038003 2 REACTION (78-PT-0(D,X)ELEM/MASS,,SIG) C3038003 3 SAMPLE For the deuteron irradiations, a stack of C3038003 4 Ta-Cu-Ta-Pt-Pt-Ta-Cu-Ta-Ta-Pt foils was used. C3038003 5 Tantalum foils for this stack were 24.9 mg/cm2 thick C3038003 6 except for the last tantalum foil which served as a C3038003 7 beam stop at 0.75 mm thick. Platinum foils were 105.6 C3038003 8 mg/cm2 and copper foils were 11.2 mg/cm2. The last C3038003 9 platinum foil served as a neutron flux monitor to C3038003 10 characterize deuteron breakup and secondary neutron C3038003 11 production. Platinum foil thicknesses varied for each C3038003 12 run due to availability. C3038003 13 DECAY-DATA ((1.)77-IR-192-G,73.8D,DG,316.5,0.8286, C3038003 14 DG,468.1,0.4784, C3038003 15 DG,308.5,0.2970) C3038003 16 ((2.)78-PT-191,2.83D,DG,538.9,0.143, C3038003 17 DG,409.4,0.079, C3038003 18 DG,359.9,0.058) C3038003 19 ((3.)78-PT-197-G,19.9HR,DG,77.4,0.17, C3038003 20 DG,191.4,0.037, C3038003 21 DG,268.8,0.0023) C3038003 22 ((4.)78-PT-197-M,95.4MIN,DG,346.5,0.111, C3038003 23 DG,279.0,0.024, C3038003 24 DG,53.1,0.0109) C3038003 25 ((5.)78-PT-199-G,30.8MIN,DG,543.0,0.1174, C3038003 26 DG,493.8,0.0447, C3038003 27 DG,317.0,0.0388) C3038003 28 ((6.)79-AU-192-G,4.94HR,DG,316.5,0.59, C3038003 29 DG,296.0,0.23, C3038003 30 DG,2237.3,0.047) C3038003 31 ((7.)79-AU-193-G,17.7HR,DG,186.2,0.097, C3038003 32 DG,255.6,0.065, C3038003 33 DG,268.2,0.038) C3038003 34 ((8.)79-AU-194-G,38.0HR,DG,328.5,0.628, C3038003 35 DG,293.5,0.109, C3038003 36 DG,1468.9,0.068) C3038003 37 ((9.)79-AU-195-G,186.0D,DG,98.9,0.1121, C3038003 38 DG,29.7,0.0084, C3038003 39 DG,30.9,0.0077) C3038003 40 ((10.)79-AU-196-G,6.17D,DG,355.7,0.87, C3038003 41 DG,333.0,0.229, C3038003 42 DG,426.1,0.066) C3038003 43 ((11.)79-AU-196-M2,9.6HR,DG,147.8,0.435, C3038003 44 DG,188.3,0.30, C3038003 45 DG,168.4,0.078) C3038003 46 ((12.)79-AU-198-G,2.69D,DG,411.8,0.9562) C3038003 47 ((13.)79-AU-198-M,2.27D,DG,214.9,0.77, C3038003 48 DG,97.2,0.69, C3038003 49 DG,180.3,0.49) C3038003 50 ((14.)79-AU-199,3.14D,DG,158.4,0.40, C3038003 51 DG,208.2,0.0872) C3038003 52 STATUS (TABLE,,J.T.Wilkinson+,J,ARI,217,111618,2025) Table 5 C3038003 53 ENDBIB 51 0 C3038003 54 NOCOMMON 0 0 C3038003 55 DATA 9 28 C3038003 56 EN EN-RSL ELEMENT MASS ISOMER ISOMER C3038003 57 DATA DATA-ERR DECAY-FLAG C3038003 58 MEV MEV NO-DIM NO-DIM NO-DIM NO-DIM C3038003 59 MB MB NO-DIM C3038003 60 11.7 0.9 77.0 192.0 0. 1.C3038003 61 0.15 0.06 1. C3038003 62 11.7 0.9 78.0 191.0 C3038003 63 0.0403 0.0223 2. C3038003 64 11.7 0.9 78.0 197.0 0.0 C3038003 65 63. 8.6 3. C3038003 66 11.7 0.9 78.0 197.0 1.0 C3038003 67 12.4 1.5 4. C3038003 68 11.7 0.9 78.0 199.0 C3038003 69 11.6 1.3 5. C3038003 70 11.7 0.9 79.0 192.0 C3038003 71 2.8 0.44 6. C3038003 72 11.7 0.9 79.0 193.0 C3038003 73 3.31 0.7 7. C3038003 74 11.7 0.9 79.0 194.0 C3038003 75 80.7 5.9 8. C3038003 76 11.7 0.9 79.0 195.0 C3038003 77 207. 16. 9. C3038003 78 11.7 0.9 79.0 196.0 0.0 C3038003 79 65.7 4.5 10. C3038003 80 11.7 0.9 79.0 196.0 2.0 C3038003 81 1.39 0.23 11. C3038003 82 11.7 0.9 79.0 198.0 0.0 C3038003 83 17.7 1.1 12. C3038003 84 11.7 0.9 79.0 198.0 1.0 C3038003 85 0.18 0.05 13. C3038003 86 11.7 0.9 79.0 199.0 C3038003 87 18.1 1.2 14. C3038003 88 13.3 0.8 77.0 192.0 0. 1.C3038003 89 0.59 0.08 1. C3038003 90 13.3 0.8 78.0 191.0 C3038003 91 0.145 0.052 2. C3038003 92 13.3 0.8 78.0 197.0 0.0 C3038003 93 82.6 10.9 3. C3038003 94 13.3 0.8 78.0 197.0 1.0 C3038003 95 17.7 2.1 4. C3038003 96 13.3 0.8 78.0 199.0 C3038003 97 14.6 1.6 5. C3038003 98 13.3 0.8 79.0 192.0 C3038003 99 5.61 0.87 6. C3038003 100 13.3 0.8 79.0 193.0 C3038003 101 6.54 1.54 7. C3038003 102 13.3 0.8 79.0 194.0 C3038003 103 225. 17. 8. C3038003 104 13.3 0.8 79.0 195.0 C3038003 105 257. 58. 9. C3038003 106 13.3 0.8 79.0 196.0 0.0 C3038003 107 147. 10. 10. C3038003 108 13.3 0.8 79.0 196.0 2.0 C3038003 109 5.89 0.6 11. C3038003 110 13.3 0.8 79.0 198.0 0.0 C3038003 111 32.4 2.1 12. C3038003 112 13.3 0.8 79.0 198.0 1.0 C3038003 113 1.15 0.27 13. C3038003 114 13.3 0.8 79.0 199.0 C3038003 115 21.3 1.3 14. C3038003 116 ENDDATA 60 0 C3038003 117 ENDSUBENT 116 0 C303800399999 ENDENTRY 3 0 C303899999999