ENTRY C0389 20240303 C038900000001 SUBENT C0389001 20240303 20240513 C038900100001 BIB 13 29 C038900100002 INSTITUTE (1USACAR) C038900100003 REFERENCE (J,PR,146,836,1966) C038900100004 #doi:10.1103/PhysRev.146.836 C038900100005 AUTHOR (W.J.Treytl,A.A.Caretto) C038900100006 TITLE Study of (p,n) reactions between 100 and 400 MeV C038900100007 FACILITY (SYNCY,1USACAR) C038900100008 INC-SOURCE The uncertainty of the proton energy had been estimatedC038900100009 to be less than +-5% at energies from 130 to 420 MeV C038900100010 METHOD (ACTIV,CHSEP,STTA) C038900100011 DETECTOR (NAICR) C038900100012 MONITOR (13-AL-27(P,X)11-NA-24,,SIG) C038900100013 0.001 in. and 0.003 in. Al metallic foil 99.99% pure C038900100014 MONIT-REF (B0022003,J.B.Cumming,J,ARN,13,261,1963) C038900100015 ERR-ANALYS (ERR-1) Standard deviations from the average for C038900100016 identical determinations. C038900100017 In addition there were systematic uncertainties of C038900100018 about: C038900100019 (ERR-2) +-10% for the monitor cross section C038900100020 (ERR-3) +-5% for target alignment C038900100021 (ERR-4) +-5% for decay curve resolution C038900100022 (ERR-5) +-3% for chemical yield determination. C038900100023 (ERR-T) The overall uncertainty, taken to be the C038900100024 geometric mean of these individual uncertainties, had C038900100025 a value of about +-17%. C038900100026 STATUS (TABLE,,W.J.Treytl+,J,PR,146,836,1966) Tables I and II C038900100027 HISTORY (19871004C) C038900100028 (20240229A) OS. REACTION corrected in subs.5,6, C038900100029 ERR-ANALYS updated, several BIB updates, converted to C038900100030 lower and upper case C038900100031 ENDBIB 29 0 C038900100032 COMMON 5 3 C038900100033 ERR-2 ERR-3 ERR-4 ERR-5 ERR-T C038900100034 PER-CENT PER-CENT PER-CENT PER-CENT PER-CENT C038900100035 10. 5. 5. 3. 17. C038900100036 ENDCOMMON 3 0 C038900100037 ENDSUBENT 36 0 C038900199999 SUBENT C0389002 20240303 20240513 C038900200001 BIB 3 6 C038900200002 REACTION (21-SC-45(P,N)22-TI-45,,SIG) C038900200003 SAMPLE 0.002 in. Sc oxide impregnated epoxy resin foil - C038900200004 spectroscopically pure C038900200005 ERR-ANALYS (ERR-6) The uncertainty in the counting efficiency C038900200006 factors was about +-10%, except for Pd-103 which was C038900200007 about +-8%. C038900200008 ENDBIB 6 0 C038900200009 COMMON 1 3 C038900200010 ERR-6 C038900200011 PER-CENT C038900200012 10. C038900200013 ENDCOMMON 3 0 C038900200014 DATA 3 4 C038900200015 EN DATA ERR-1 C038900200016 MEV MB MB C038900200017 130. 5.05 0.57 C038900200018 205. 2.32 0.07 C038900200019 298. 1.44 0.32 C038900200020 396. 1.19 0.13 C038900200021 ENDDATA 6 0 C038900200022 ENDSUBENT 21 0 C038900299999 SUBENT C0389003 20240303 20240513 C038900300001 BIB 3 6 C038900300002 REACTION (28-NI-64(P,N)29-CU-64,,SIG) C038900300003 SAMPLE (28-NI-64,ENR=0.998) 0.001 in. metallic foil, C038900300004 99.8% Ni-64 C038900300005 ERR-ANALYS (ERR-6) The uncertainty in the counting efficiency C038900300006 factors was about +-10%, except for Pd-103 which was C038900300007 about +-8%. C038900300008 ENDBIB 6 0 C038900300009 COMMON 1 3 C038900300010 ERR-6 C038900300011 PER-CENT C038900300012 10. C038900300013 ENDCOMMON 3 0 C038900300014 DATA 3 4 C038900300015 EN DATA ERR-1 C038900300016 MEV MB MB C038900300017 130. 6.10 0.90 C038900300018 205. 3.05 0.50 C038900300019 298. 2.37 0.40 C038900300020 396. 1.76 0.20 C038900300021 ENDDATA 6 0 C038900300022 ENDSUBENT 21 0 C038900399999 SUBENT C0389004 20240303 20240513 C038900400001 BIB 3 5 C038900400002 REACTION (45-RH-103(P,N)46-PD-103,,SIG) C038900400003 SAMPLE 0.002 in. Rh metallic foil 99.99% pure C038900400004 ERR-ANALYS (ERR-6) The uncertainty in the counting efficiency C038900400005 factors was about +-10%, except for Pd-103 which was C038900400006 about +-8%. C038900400007 ENDBIB 5 0 C038900400008 COMMON 1 3 C038900400009 ERR-6 C038900400010 PER-CENT C038900400011 8. C038900400012 ENDCOMMON 3 0 C038900400013 DATA 3 4 C038900400014 EN DATA ERR-1 C038900400015 MEV MB MB C038900400016 130. 6.14 0.25 C038900400017 205. 3.54 0.12 C038900400018 298. 3.00 0.12 C038900400019 396. 2.30 0.25 C038900400020 ENDDATA 6 0 C038900400021 ENDSUBENT 20 0 C038900499999 SUBENT C0389005 20240303 20240513 C038900500001 BIB 4 7 C038900500002 REACTION (52-TE-130(P,N)53-I-130-G,M+,SIG) C038900500003 SAMPLE (52-TE-130,ENR=0.99999) 0.003 in. electropolated onto C038900500004 0.001 in. Nickel foil: 99.999% Te-130 C038900500005 ERR-ANALYS (ERR-6) The uncertainty in the counting efficiency C038900500006 factors was about +-10%, except for Pd-103 which was C038900500007 about +-8%. C038900500008 HISTORY (20240229A) REACTION SF5: (M) -> M+ C038900500009 ENDBIB 7 0 C038900500010 COMMON 1 3 C038900500011 ERR-6 C038900500012 PER-CENT C038900500013 10. C038900500014 ENDCOMMON 3 0 C038900500015 DATA 3 5 C038900500016 EN DATA ERR-1 C038900500017 MEV MB MB C038900500018 130. 7.68 0.87 C038900500019 205. 4.07 0.24 C038900500020 270. 3.26 0.04 C038900500021 396. 3.34 0.25 C038900500022 423. 2.32 0.24 C038900500023 ENDDATA 7 0 C038900500024 ENDSUBENT 23 0 C038900599999 SUBENT C0389006 20240303 20240513 C038900600001 BIB 4 7 C038900600002 REACTION (74-W-186(P,N)75-RE-186-G,,SIG) C038900600003 SAMPLE 0.005 in. W-186 metallic foil, spectrographically C038900600004 pure of metals heavier than W C038900600005 ERR-ANALYS (ERR-6) The uncertainty in the counting efficiency C038900600006 factors was about +-10%, except for Pd-103 which was C038900600007 about +-8%. C038900600008 HISTORY (20240229A) REACTION SF5 deleted C038900600009 ENDBIB 7 0 C038900600010 COMMON 1 3 C038900600011 ERR-6 C038900600012 PER-CENT C038900600013 10. C038900600014 ENDCOMMON 3 0 C038900600015 DATA 3 4 C038900600016 EN DATA ERR-1 C038900600017 MEV MB MB C038900600018 130. 13.7 2.8 C038900600019 205. 6.17 0.50 C038900600020 298. 5.10 0.37 C038900600021 396. 4.35 0.34 C038900600022 ENDDATA 6 0 C038900600023 ENDSUBENT 22 0 C038900699999 ENDENTRY 6 0 C038999999999