ENTRY C2321 20180614 C177C232100000001 SUBENT C2321001 20180614 C177C232100100001 BIB 11 54 C232100100002 TITLE Nuclear Reactions with Energetic Nitrogen Ions C232100100003 AUTHOR (H.L.Reynolds,D.W.Scott,A.Zucker) C232100100004 REFERENCE (J,PNA,39,975,1953) C232100100005 #doi:10.1073/pnas.39.9.975 C232100100006 INSTITUTE (1USAORL) C232100100007 FACILITY (CYCLO,1USAORL) ORNL 63-inch cyclotron. C232100100008 INC-SPECT A rather wide incident energy spectrum (extending up C232100100009 to 30 MeV). C232100100010 DETECTOR (GEMUC,BF3) C232100100011 METHOD (ACTIV) After bombardments lasting from one to thirty C232100100012 minutes the targets were withdrawn through the air C232100100013 lock and placed under a shielded thin-window Geiger C232100100014 counter. Usually about two minutes elapsed from the C232100100015 time the beam was turned off until counting began. C232100100016 Targets were counted continuously until the counting C232100100017 rate for induced activities approximated background. C232100100018 It was thus possible to detect half-lives ranging C232100100019 from one minute to several days. In general, there C232100100020 were several induced activities in each target. C232100100021 Standard graphical methods were used to determine C232100100022 half-lives and analyze decay curves. From the known C232100100023 bombardment time and rate of decay, the relative C232100100024 thick-target yields for the production of radioactive C232100100025 isotopes were calculated. C232100100026 ANALYSIS (DECAY) C232100100027 ERR-ANALYS (DATA-ERR) The below listed factors contributed a C232100100028 probable error in relative cross sections of less C232100100029 than 20% for any one target element, and less than C232100100030 50% from one element to another. C232100100031 1. Counting errors. C232100100032 2. Target impurities: commercially available target C232100100033 materials were usually pure to a few parts per thousandC232100100034 in cases where unexpected impurities appeared, in TaN, C232100100035 for example, they were readily detected by the C232100100036 anomalous decay curve. C232100100037 3. Changes in the target during bombardment: stable C232100100038 compounds with high dissociation temperatures were C232100100039 chosen as target materials in order to avoid changes inC232100100040 the chemical composition of the target during C232100100041 bombardment; targets bombarded with reduced beams gave C232100100042 the same results, within the limits of accuracy, as C232100100043 those bombarded with intense beams. C232100100044 4. Analysis of decay schemes: decay curves containing C232100100045 more than two or three half-lives are difficult to C232100100046 analyze accurately; with several independent analyzers C232100100047 and a variety of targets, we were able to reproduce C232100100048 relative yield values to within the estimated error. C232100100049 5. Variation of beam energy distribution: relative C232100100050 yields depend on the beam energy spectrum, vide supra; C232100100051 errors due to this cause were investigated by C232100100052 bombarding the same target element a number of times C232100100053 and by bombarding carbon targets periodically. No C232100100054 serious changes in relative yields were found. C232100100055 HISTORY (20180614C) BP C232100100056 ENDBIB 54 0 C232100100057 COMMON 2 3 C232100100058 EN-MEAN DATA-ERR C232100100059 MEV PER-CENT C232100100060 19.0 20.0 C232100100061 ENDCOMMON 3 0 C232100100062 ENDSUBENT 61 0 C232100199999 SUBENT C2321002 20180614 C177C232100200001 BIB 4 7 C232100200002 REACTION ((1-H-2(7-N-14,N)8-O-15,,TTY,,(PHY)/SPA)/ C232100200003 (6-C-12(7-N-14,2P)11-NA-24,,TTY,,(PHY)/SPA)) C232100200004 SAMPLE A zirconium deuteride target was prepared by C232100200005 evaporating a zirconium film on a platinum backing C232100200006 and heating it in an atmosphere of deuterium. C232100200007 DECAY-DATA (8-O-15,2.1MIN) C232100200008 STATUS (TABLE) Table 1 , page 978. C232100200009 ENDBIB 7 0 C232100200010 NOCOMMON 0 0 C232100200011 DATA 1 1 C232100200012 DATA C232100200013 NO-DIM C232100200014 36.0 C232100200015 ENDDATA 3 0 C232100200016 ENDSUBENT 15 0 C232100299999 SUBENT C2321003 20180614 C177C232100300001 BIB 4 8 C232100300002 REACTION ((4-BE-9(7-N-14,N)11-NA-22,,TTY,,(PHY)/SPA)/ C232100300003 (6-C-12(7-N-14,2P)11-NA-24,,TTY,,(PHY)/SPA)) C232100300004 SAMPLE The beryllium target was a 5-mil foil obtained C232100300005 commercially. A 1/16-inch thick BeO target was used C232100300006 to tie the Be reaction yield to that of oxygen which C232100300007 was previously related to the carbon yield. C232100300008 DECAY-DATA (11-NA-22,2.6YR) C232100300009 STATUS (TABLE) Table 1 , page 978. C232100300010 ENDBIB 8 0 C232100300011 NOCOMMON 0 0 C232100300012 DATA 1 1 C232100300013 DATA-MAX C232100300014 NO-DIM C232100300015 2.0 C232100300016 ENDDATA 3 0 C232100300017 ENDSUBENT 16 0 C232100399999 SUBENT C2321004 20180614 C177C232100400001 BIB 4 8 C232100400002 REACTION ((4-BE-9(7-N-14,N+A)9-F-18,,TTY,,(PHY)/SPA)/ C232100400003 (6-C-12(7-N-14,2P)11-NA-24,,TTY,,(PHY)/SPA)) C232100400004 SAMPLE The beryllium target was a 5-mil foil obtained C232100400005 commercially. A 1/16-inch thick BeO target was used C232100400006 to tie the Be reaction yield to that of oxygen which C232100400007 was previously related to the carbon yield. C232100400008 DECAY-DATA (9-F-18,112.0MIN) C232100400009 STATUS (TABLE) Table 1 , page 978. C232100400010 ENDBIB 8 0 C232100400011 NOCOMMON 0 0 C232100400012 DATA 1 1 C232100400013 DATA C232100400014 NO-DIM C232100400015 65.0 C232100400016 ENDDATA 3 0 C232100400017 ENDSUBENT 16 0 C232100499999 SUBENT C2321005 20180614 C177C232100500001 BIB 4 8 C232100500002 REACTION ((4-BE-9(7-N-14,4-BE-10)7-N-13,,TTY,,(PHY)/SPA)/ C232100500003 (6-C-12(7-N-14,2P)11-NA-24,,TTY,,(PHY)/SPA)) C232100500004 SAMPLE The beryllium target was a 5-mil foil obtained C232100500005 commercially. A 1/16-inch thick BeO target was used C232100500006 to tie the Be reaction yield to that of oxygen which C232100500007 was previously related to the carbon yield. C232100500008 DECAY-DATA (7-N-13,10.2MIN) C232100500009 STATUS (TABLE) Table 1 , page 978. C232100500010 ENDBIB 8 0 C232100500011 NOCOMMON 0 0 C232100500012 DATA 1 1 C232100500013 DATA-MAX C232100500014 NO-DIM C232100500015 0.01 C232100500016 ENDDATA 3 0 C232100500017 ENDSUBENT 16 0 C232100599999 SUBENT C2321006 20180614 C177C232100600001 BIB 4 8 C232100600002 REACTION ((4-BE-9(7-N-14,2-HE-6)9-F-17,,TTY,,(PHY)/SPA)/ C232100600003 (6-C-12(7-N-14,2P)11-NA-24,,TTY,,(PHY)/SPA)) C232100600004 SAMPLE The beryllium target was a 5-mil foil obtained C232100600005 commercially. A 1/16-inch thick BeO target was used C232100600006 to tie the Be reaction yield to that of oxygen which C232100600007 was previously related to the carbon yield. C232100600008 DECAY-DATA (9-F-17,70.0SEC) C232100600009 STATUS (TABLE) Table 1 , page 978. C232100600010 ENDBIB 8 0 C232100600011 NOCOMMON 0 0 C232100600012 DATA 1 1 C232100600013 DATA-MAX C232100600014 NO-DIM C232100600015 0.02 C232100600016 ENDDATA 3 0 C232100600017 ENDSUBENT 16 0 C232100699999 SUBENT C2321007 20180614 C177C232100700001 BIB 4 11 C232100700002 REACTION ((5-B-10(7-N-14,D)11-NA-22,,TTY,,(PHY)/SPA)/ C232100700003 (6-C-12(7-N-14,2P)11-NA-24,,TTY,,(PHY)/SPA)) C232100700004 SAMPLE Natural amorphous boron, (19% B10, 81% B11) and C232100700005 separated B10, (96% B10), were used as targets. A C232100700006 thick slurry of boron in water was dried on silver C232100700007 or copper to form the target. Boron carbide was used C232100700008 as a target to relate the yields from boron to the C232100700009 Na24 yield from the carbon target. The target was C232100700010 prepared in the same manner as the boron targets. C232100700011 DECAY-DATA (11-NA-22,2.6YR) C232100700012 STATUS (TABLE) Table 1 , page 978. C232100700013 ENDBIB 11 0 C232100700014 NOCOMMON 0 0 C232100700015 DATA 1 1 C232100700016 DATA-MAX C232100700017 NO-DIM C232100700018 4.0 C232100700019 ENDDATA 3 0 C232100700020 ENDSUBENT 19 0 C232100799999 SUBENT C2321008 20180614 C177C232100800001 BIB 4 11 C232100800002 REACTION ((5-B-10(7-N-14,X)6-C-11,,TTY,,(PHY)/SPA)/ C232100800003 (6-C-12(7-N-14,2P)11-NA-24,,TTY,,(PHY)/SPA)) C232100800004 SAMPLE Natural amorphous boron, (19% B10, 81% B11) and C232100800005 separated B10, (96% B10), were used as targets. A C232100800006 thick slurry of boron in water was dried on silver C232100800007 or copper to form the target. Boron carbide was used C232100800008 as a target to relate the yields from boron to the C232100800009 Na24 yield from the carbon target. The target was C232100800010 prepared in the same manner as the boron targets. C232100800011 DECAY-DATA (6-C-11,20.5MIN) C232100800012 STATUS (TABLE) Table 1 , page 978. C232100800013 ENDBIB 11 0 C232100800014 NOCOMMON 0 0 C232100800015 DATA 1 1 C232100800016 DATA C232100800017 NO-DIM C232100800018 0.3 C232100800019 ENDDATA 3 0 C232100800020 ENDSUBENT 19 0 C232100899999 SUBENT C2321009 20180614 C177C232100900001 BIB 4 11 C232100900002 REACTION ((5-B-10(7-N-14,5-B-11)7-N-13,,TTY,,(PHY)/SPA)/ C232100900003 (6-C-12(7-N-14,2P)11-NA-24,,TTY,,(PHY)/SPA)) C232100900004 SAMPLE Natural amorphous boron, (19% B10, 81% B11) and C232100900005 separated B10, (96% B10), were used as targets. A C232100900006 thick slurry of boron in water was dried on silver C232100900007 or copper to form the target. Boron carbide was used C232100900008 as a target to relate the yields from boron to the C232100900009 Na24 yield from the carbon target. The target was C232100900010 prepared in the same manner as the boron targets. C232100900011 DECAY-DATA (7-N-13,10.2MIN) C232100900012 STATUS (TABLE) Table 1 , page 978. C232100900013 ENDBIB 11 0 C232100900014 NOCOMMON 0 0 C232100900015 DATA 1 1 C232100900016 DATA C232100900017 NO-DIM C232100900018 0.15 C232100900019 ENDDATA 3 0 C232100900020 ENDSUBENT 19 0 C232100999999 SUBENT C2321010 20180614 C177C232101000001 BIB 4 11 C232101000002 REACTION ((5-B-10(7-N-14,X)8-O-15,,TTY,,(PHY)/SPA)/ C232101000003 (6-C-12(7-N-14,2P)11-NA-24,,TTY,,(PHY)/SPA)) C232101000004 SAMPLE Natural amorphous boron, (19% B10, 81% B11) and C232101000005 separated B10, (96% B10), were used as targets. A C232101000006 thick slurry of boron in water was dried on silver C232101000007 or copper to form the target. Boron carbide was used C232101000008 as a target to relate the yields from boron to the C232101000009 Na24 yield from the carbon target. The target was C232101000010 prepared in the same manner as the boron targets. C232101000011 DECAY-DATA (8-O-15,2.1MIN) C232101000012 STATUS (TABLE) Table 1 , page 978. C232101000013 ENDBIB 11 0 C232101000014 NOCOMMON 0 0 C232101000015 DATA 1 1 C232101000016 DATA C232101000017 NO-DIM C232101000018 0.6 C232101000019 ENDDATA 3 0 C232101000020 ENDSUBENT 19 0 C232101099999 SUBENT C2321011 20180614 C177C232101100001 BIB 4 11 C232101100002 REACTION ((5-B-10(7-N-14,X)9-F-18,,TTY,,(PHY)/SPA)/ C232101100003 (6-C-12(7-N-14,2P)11-NA-24,,TTY,,(PHY)/SPA)) C232101100004 SAMPLE Natural amorphous boron, (19% B10, 81% B11) and C232101100005 separated B10, (96% B10), were used as targets. A C232101100006 thick slurry of boron in water was dried on silver C232101100007 or copper to form the target. Boron carbide was used C232101100008 as a target to relate the yields from boron to the C232101100009 Na24 yield from the carbon target. The target was C232101100010 prepared in the same manner as the boron targets. C232101100011 DECAY-DATA (9-F-18,112.0MIN) C232101100012 STATUS (TABLE) Table 1 , page 978. C232101100013 ENDBIB 11 0 C232101100014 NOCOMMON 0 0 C232101100015 DATA 1 1 C232101100016 DATA C232101100017 NO-DIM C232101100018 0.2 C232101100019 ENDDATA 3 0 C232101100020 ENDSUBENT 19 0 C232101199999 SUBENT C2321012 20180614 C177C232101200001 BIB 4 11 C232101200002 REACTION ((5-B-11(7-N-14,P)11-NA-24,,TTY,,(PHY)/SPA)/ C232101200003 (6-C-12(7-N-14,2P)11-NA-24,,TTY,,(PHY)/SPA)) C232101200004 SAMPLE Natural amorphous boron, (19% B10, 81% B11) and C232101200005 separated B10, (96% B10), were used as targets. A C232101200006 thick slurry of boron in water was dried on silver C232101200007 or copper to form the target. Boron carbide was used C232101200008 as a target to relate the yields from boron to the C232101200009 Na24 yield from the carbon target. The target was C232101200010 prepared in the same manner as the boron targets. C232101200011 DECAY-DATA (11-NA-24,15.0HR) C232101200012 STATUS (TABLE) Table 1 , page 978. C232101200013 ENDBIB 11 0 C232101200014 NOCOMMON 0 0 C232101200015 DATA 1 1 C232101200016 DATA C232101200017 NO-DIM C232101200018 0.2 C232101200019 ENDDATA 3 0 C232101200020 ENDSUBENT 19 0 C232101299999 SUBENT C2321013 20180614 C177C232101300001 BIB 4 11 C232101300002 REACTION ((5-B-11(7-N-14,2P)10-NE-23,,TTY,,(PHY)/SPA)/ C232101300003 (6-C-12(7-N-14,2P)11-NA-24,,TTY,,(PHY)/SPA)) C232101300004 SAMPLE Natural amorphous boron, (19% B10, 81% B11) and C232101300005 separated B10, (96% B10), were used as targets. A C232101300006 thick slurry of boron in water was dried on silver C232101300007 or copper to form the target. Boron carbide was used C232101300008 as a target to relate the yields from boron to the C232101300009 Na24 yield from the carbon target. The target was C232101300010 prepared in the same manner as the boron targets. C232101300011 DECAY-DATA (10-NE-23,40.2SEC) C232101300012 STATUS (TABLE) Table 1 , page 978. C232101300013 ENDBIB 11 0 C232101300014 NOCOMMON 0 0 C232101300015 DATA 1 1 C232101300016 DATA C232101300017 NO-DIM C232101300018 0.005 C232101300019 ENDDATA 3 0 C232101300020 ENDSUBENT 19 0 C232101399999 SUBENT C2321014 20180614 C177C232101400001 BIB 4 6 C232101400002 REACTION ((6-C-12(7-N-14,A)11-NA-22,,TTY,,(PHY)/SPA)/ C232101400003 (6-C-12(7-N-14,2P)11-NA-24,,TTY,,(PHY)/SPA)) C232101400004 SAMPLE Carbon was bombarded in the form of graphite strips C232101400005 1/32 inch thick. C232101400006 DECAY-DATA (11-NA-22,2.6YR) C232101400007 STATUS (TABLE) Table 1 , page 978. C232101400008 ENDBIB 6 0 C232101400009 NOCOMMON 0 0 C232101400010 DATA 1 1 C232101400011 DATA C232101400012 NO-DIM C232101400013 6.3 C232101400014 ENDDATA 3 0 C232101400015 ENDSUBENT 14 0 C232101499999 SUBENT C2321015 20180614 C177C232101500001 BIB 4 6 C232101500002 REACTION ((6-C-12(7-N-14,X)9-F-18,,TTY,,(PHY)/SPA)/ C232101500003 (6-C-12(7-N-14,2P)11-NA-24,,TTY,,(PHY)/SPA)) C232101500004 SAMPLE Carbon was bombarded in the form of graphite strips C232101500005 1/32 inch thick. C232101500006 DECAY-DATA (9-F-18,112.0MIN) C232101500007 STATUS (TABLE) Table 1 , page 978. C232101500008 ENDBIB 6 0 C232101500009 NOCOMMON 0 0 C232101500010 DATA 1 1 C232101500011 DATA C232101500012 NO-DIM C232101500013 0.7 C232101500014 ENDDATA 3 0 C232101500015 ENDSUBENT 14 0 C232101599999 SUBENT C2321016 20180614 C177C232101600001 BIB 4 6 C232101600002 REACTION ((6-C-12(7-N-14,6-C-13)7-N-13,,TTY,,(PHY)/SPA)/ C232101600003 (6-C-12(7-N-14,2P)11-NA-24,,TTY,,(PHY)/SPA)) C232101600004 SAMPLE Carbon was bombarded in the form of graphite strips C232101600005 1/32 inch thick. C232101600006 DECAY-DATA (7-N-13,10.2MIN) C232101600007 STATUS (TABLE) Table 1 , page 978. C232101600008 ENDBIB 6 0 C232101600009 NOCOMMON 0 0 C232101600010 DATA 1 1 C232101600011 DATA-MAX C232101600012 NO-DIM C232101600013 0.002 C232101600014 ENDDATA 3 0 C232101600015 ENDSUBENT 14 0 C232101699999 SUBENT C2321017 20180614 C177C232101700001 BIB 4 6 C232101700002 REACTION ((6-C-13(7-N-14,2P)11-NA-25,,TTY,,(PHY)/SPA)/ C232101700003 (6-C-12(7-N-14,2P)11-NA-24,,TTY,,(PHY)/SPA)) C232101700004 SAMPLE Carbon was bombarded in the form of graphite strips C232101700005 1/32 inch thick. C232101700006 DECAY-DATA (11-NA-25,62.0SEC) C232101700007 STATUS (TABLE) Table 1 , page 978. C232101700008 ENDBIB 6 0 C232101700009 NOCOMMON 0 0 C232101700010 DATA 1 1 C232101700011 DATA C232101700012 NO-DIM C232101700013 1.4 C232101700014 ENDDATA 3 0 C232101700015 ENDSUBENT 14 0 C232101799999 SUBENT C2321018 20180614 C177C232101800001 BIB 4 8 C232101800002 REACTION ((7-N-14(7-N-14,7-N-13)7-N-15,,TTY,,(PHY)/SPA)/ C232101800003 (6-C-12(7-N-14,2P)11-NA-24,,TTY,,(PHY)/SPA)) C232101800004 SAMPLE A satisfactory nitrogen target free from other light C232101800005 elements was not available. Tantalum nitride prepared C232101800006 by passing nitrogen gas over hot tantalum was found C232101800007 to contain carbon and oxygen contamination. C232101800008 DECAY-DATA (7-N-13,10.2MIN) C232101800009 STATUS (TABLE) Table 1 , page 978. C232101800010 ENDBIB 8 0 C232101800011 NOCOMMON 0 0 C232101800012 DATA 1 1 C232101800013 DATA C232101800014 NO-DIM C232101800015 0.2 C232101800016 ENDDATA 3 0 C232101800017 ENDSUBENT 16 0 C232101899999 SUBENT C2321019 20180614 C177C232101900001 BIB 4 8 C232101900002 REACTION ((7-N-14(7-N-14,X)8-O-15,,TTY,,(PHY)/SPA)/ C232101900003 (6-C-12(7-N-14,2P)11-NA-24,,TTY,,(PHY)/SPA)) C232101900004 SAMPLE A satisfactory nitrogen target free from other light C232101900005 elements was not available. Tantalum nitride prepared C232101900006 by passing nitrogen gas over hot tantalum was found C232101900007 to contain carbon and oxygen contamination. C232101900008 DECAY-DATA (8-O-15,2.1MIN) C232101900009 STATUS (TABLE) Table 1 , page 978. C232101900010 ENDBIB 8 0 C232101900011 NOCOMMON 0 0 C232101900012 DATA 1 1 C232101900013 DATA C232101900014 NO-DIM C232101900015 0.4 C232101900016 ENDDATA 3 0 C232101900017 ENDSUBENT 16 0 C232101999999 SUBENT C2321020 20180614 C177C232102000001 BIB 4 6 C232102000002 REACTION ((8-O-16(7-N-14,2P)13-AL-28,,TTY,,(PHY)/SPA)/ C232102000003 (6-C-12(7-N-14,2P)11-NA-24,,TTY,,(PHY)/SPA)) C232102000004 SAMPLE Oxygen was bombarded as TiO2, ZnO, and PbO slurries C232102000005 dried on silver. C232102000006 DECAY-DATA (13-AL-28,2.3MIN) C232102000007 STATUS (TABLE) Table 1 , page 978. C232102000008 ENDBIB 6 0 C232102000009 NOCOMMON 0 0 C232102000010 DATA 1 1 C232102000011 DATA C232102000012 NO-DIM C232102000013 2.5 C232102000014 ENDDATA 3 0 C232102000015 ENDSUBENT 14 0 C232102099999 SUBENT C2321021 20180615 C177C232102100001 BIB 4 6 C232102100002 REACTION ((8-O-16(7-N-14,X)11-NA-22,,TTY,,(PHY)/SPA)/ C232102100003 (6-C-12(7-N-14,2P)11-NA-24,,TTY,,(PHY)/SPA)) C232102100004 SAMPLE Oxygen was bombarded as TiO2, ZnO, and PbO slurries C232102100005 dried on silver. C232102100006 DECAY-DATA (11-NA-22,2.6YR) C232102100007 STATUS (TABLE) Table 1 , page 978. C232102100008 ENDBIB 6 0 C232102100009 NOCOMMON 0 0 C232102100010 DATA 1 1 C232102100011 DATA-MAX C232102100012 NO-DIM C232102100013 0.9 C232102100014 ENDDATA 3 0 C232102100015 ENDSUBENT 14 0 C232102199999 SUBENT C2321022 20180615 C177C232102200001 BIB 4 6 C232102200002 REACTION ((8-O-16(7-N-14,6-C-12)9-F-18,,TTY,,(PHY)/SPA)/ C232102200003 (6-C-12(7-N-14,2P)11-NA-24,,TTY,,(PHY)/SPA)) C232102200004 SAMPLE Oxygen was bombarded as TiO2, ZnO, and PbO slurries C232102200005 dried on silver. C232102200006 DECAY-DATA (9-F-18,112.0MIN) C232102200007 STATUS (TABLE) Table 1 , page 978. C232102200008 ENDBIB 6 0 C232102200009 NOCOMMON 0 0 C232102200010 DATA 1 1 C232102200011 DATA C232102200012 NO-DIM C232102200013 0.09 C232102200014 ENDDATA 3 0 C232102200015 ENDSUBENT 14 0 C232102299999 SUBENT C2321023 20180615 C177C232102300001 BIB 4 6 C232102300002 REACTION ((8-O-16(7-N-14,G)15-P-30,,TTY,,(PHY)/SPA)/ C232102300003 (6-C-12(7-N-14,2P)11-NA-24,,TTY,,(PHY)/SPA)) C232102300004 SAMPLE Oxygen was bombarded as TiO2, ZnO, and PbO slurries C232102300005 dried on silver. C232102300006 DECAY-DATA (15-P-30,2.5MIN) C232102300007 STATUS (TABLE) Table 1 , page 978. C232102300008 ENDBIB 6 0 C232102300009 NOCOMMON 0 0 C232102300010 DATA 1 1 C232102300011 DATA-MAX C232102300012 NO-DIM C232102300013 0.25 C232102300014 ENDDATA 3 0 C232102300015 ENDSUBENT 14 0 C232102399999 SUBENT C2321024 20180615 C177C232102400001 BIB 4 6 C232102400002 REACTION ((8-O-16(7-N-14,7-N-15)8-O-15,,TTY,,(PHY)/SPA)/ C232102400003 (6-C-12(7-N-14,2P)11-NA-24,,TTY,,(PHY)/SPA)) C232102400004 SAMPLE Oxygen was bombarded as TiO2, ZnO, and PbO slurries C232102400005 dried on silver. C232102400006 DECAY-DATA (8-O-15,2.1MIN) C232102400007 STATUS (TABLE) Table 1 , page 978. C232102400008 ENDBIB 6 0 C232102400009 NOCOMMON 0 0 C232102400010 DATA 1 1 C232102400011 DATA-MAX C232102400012 NO-DIM C232102400013 0.25 C232102400014 ENDDATA 3 0 C232102400015 ENDSUBENT 14 0 C232102499999 SUBENT C2321025 20180615 C177C232102500001 BIB 4 6 C232102500002 REACTION ((8-O-16(7-N-14,7-N-13)8-O-17,,TTY,,(PHY)/SPA)/ C232102500003 (6-C-12(7-N-14,2P)11-NA-24,,TTY,,(PHY)/SPA)) C232102500004 SAMPLE Oxygen was bombarded as TiO2, ZnO, and PbO slurries C232102500005 dried on silver. C232102500006 DECAY-DATA (7-N-13,10.2MIN) C232102500007 STATUS (TABLE) Table 1 , page 978. C232102500008 ENDBIB 6 0 C232102500009 NOCOMMON 0 0 C232102500010 DATA 1 1 C232102500011 DATA-MAX C232102500012 NO-DIM C232102500013 0.0005 C232102500014 ENDDATA 3 0 C232102500015 ENDSUBENT 14 0 C232102599999 SUBENT C2321026 20180615 C177C232102600001 BIB 4 6 C232102600002 REACTION ((16-S-32(7-N-14,P)22-TI-45,,TTY,,(PHY)/SPA)/ C232102600003 (6-C-12(7-N-14,2P)11-NA-24,,TTY,,(PHY)/SPA)) C232102600004 SAMPLE Sulfur was bombarded as amorphous sulfur powder C232102600005 pressed on a silver backing. C232102600006 DECAY-DATA (22-TI-45,3.1HR) C232102600007 STATUS (TABLE) Table 1 , page 978. C232102600008 ENDBIB 6 0 C232102600009 NOCOMMON 0 0 C232102600010 DATA 1 1 C232102600011 DATA-MAX C232102600012 NO-DIM C232102600013 0.30 C232102600014 ENDDATA 3 0 C232102600015 ENDSUBENT 14 0 C232102699999 SUBENT C2321027 20180615 C177C232102700001 BIB 4 6 C232102700002 REACTION ((16-S-32(7-N-14,2P)21-SC-44-G,,TTY,,(PHY)/SPA)/ C232102700003 (6-C-12(7-N-14,2P)11-NA-24,,TTY,,(PHY)/SPA)) C232102700004 SAMPLE Sulfur was bombarded as amorphous sulfur powder C232102700005 pressed on a silver backing. C232102700006 DECAY-DATA (21-SC-44-G,4.0HR) C232102700007 STATUS (TABLE) Table 1 , page 978. C232102700008 ENDBIB 6 0 C232102700009 NOCOMMON 0 0 C232102700010 DATA 1 1 C232102700011 DATA C232102700012 NO-DIM C232102700013 3.0 C232102700014 ENDDATA 3 0 C232102700015 ENDSUBENT 14 0 C232102799999 SUBENT C2321028 20180615 C177C232102800001 BIB 4 6 C232102800002 REACTION ((16-S-32(7-N-14,2P)21-SC-44-M,,TTY,,(PHY)/SPA)/ C232102800003 (6-C-12(7-N-14,2P)11-NA-24,,TTY,,(PHY)/SPA)) C232102800004 SAMPLE Sulfur was bombarded as amorphous sulfur powder C232102800005 pressed on a silver backing. C232102800006 DECAY-DATA (21-SC-44-M,2.4D) C232102800007 STATUS (TABLE) Table 1 , page 978. C232102800008 ENDBIB 6 0 C232102800009 NOCOMMON 0 0 C232102800010 DATA 1 1 C232102800011 DATA C232102800012 NO-DIM C232102800013 1.5 C232102800014 ENDDATA 3 0 C232102800015 ENDSUBENT 14 0 C232102899999 SUBENT C2321029 20180615 C177C232102900001 BIB 4 6 C232102900002 REACTION ((16-S-32(7-N-14,6-C-12)17-CL-34-M,,TTY,,(PHY)/SPA)/ C232102900003 (6-C-12(7-N-14,2P)11-NA-24,,TTY,,(PHY)/SPA)) C232102900004 SAMPLE Sulfur was bombarded as amorphous sulfur powder C232102900005 pressed on a silver backing. C232102900006 DECAY-DATA (17-CL-34-M,33.0MIN) C232102900007 STATUS (TABLE) Table 1 , page 978. C232102900008 ENDBIB 6 0 C232102900009 NOCOMMON 0 0 C232102900010 DATA 1 1 C232102900011 DATA C232102900012 NO-DIM C232102900013 0.1 C232102900014 ENDDATA 3 0 C232102900015 ENDSUBENT 14 0 C232102999999 SUBENT C2321030 20180615 C177C232103000001 BIB 4 6 C232103000002 REACTION ((16-S-34(7-N-14,N)23-V-47,,TTY,,(PHY)/SPA)/ C232103000003 (6-C-12(7-N-14,2P)11-NA-24,,TTY,,(PHY)/SPA)) C232103000004 SAMPLE Sulfur was bombarded as amorphous sulfur powder C232103000005 pressed on a silver backing. C232103000006 DECAY-DATA (23-V-47,33.0MIN) C232103000007 STATUS (TABLE) Table 1 , page 978. C232103000008 ENDBIB 6 0 C232103000009 NOCOMMON 0 0 C232103000010 DATA 1 1 C232103000011 DATA C232103000012 NO-DIM C232103000013 2.5 C232103000014 ENDDATA 3 0 C232103000015 ENDSUBENT 14 0 C232103099999 SUBENT C2321031 20180615 C177C232103100001 BIB 4 6 C232103100002 REACTION ((16-S-32(7-N-14,9-F-18)14-SI-28,,TTY,,(PHY)/SPA)/ C232103100003 (6-C-12(7-N-14,2P)11-NA-24,,TTY,,(PHY)/SPA)) C232103100004 SAMPLE Sulfur was bombarded as amorphous sulfur powder C232103100005 pressed on a silver backing. C232103100006 DECAY-DATA (9-F-18,112.0MIN) C232103100007 STATUS (TABLE) Table 1 , page 978. C232103100008 ENDBIB 6 0 C232103100009 NOCOMMON 0 0 C232103100010 DATA 1 1 C232103100011 DATA-MAX C232103100012 NO-DIM C232103100013 0.15 C232103100014 ENDDATA 3 0 C232103100015 ENDSUBENT 14 0 C232103199999 SUBENT C2321032 20180615 C177C232103200001 BIB 4 6 C232103200002 REACTION (1-H-2(7-N-14,N)8-O-15,,SIG,,SPA) C232103200003 SAMPLE A zirconium deuteride target was prepared by C232103200004 evaporating a zirconium film on a platinum backing C232103200005 and heating it in an atmosphere of deuterium. C232103200006 DECAY-DATA (8-O-15,2.1MIN) C232103200007 STATUS (TABLE) Table 1 , page 978. C232103200008 ENDBIB 6 0 C232103200009 NOCOMMON 0 0 C232103200010 DATA 1 1 C232103200011 DATA C232103200012 MB C232103200013 3.0 C232103200014 ENDDATA 3 0 C232103200015 ENDSUBENT 14 0 C232103299999 ENDENTRY 32 0 C232199999999