ENTRY F0207 20160424 F062F020700000001 SUBENT F0207001 20160424 F062F020700100001 BIB 10 29 F020700100002 TITLE He-3 - light nucleus interaction cross sections F020700100003 AUTHOR (O.D.Brill') F020700100004 INSTITUTE (4RUSKUR) F020700100005 REFERENCE (J,YF,1,55,1965) F020700100006 (J,SNP,1,37,1965) Translation from Russian F020700100007 FACILITY (CYCLO,4RUSKUR) F020700100008 METHOD (EXTB,ACTIV,STTA,BCINT) F020700100009 ANALYSIS (DECAY) The activity decay curve of each foil was F020700100010 measured F020700100011 DETECTOR (GEMUC) A Geiger counter and lead filter were used to F020700100012 register gamma-radiation under standard conditions. F020700100013 The counter was calibrated by means of gamma-rays F020700100014 from Au-198 , Co-60, Na-22 , and Na-24 sources. The F020700100015 absolute activities of these sources were determined F020700100016 within +-10% from beta-gamma coincidences and from a F020700100017 beta count in a counter with known geometry and F020700100018 efficiency. F020700100019 ERR-ANALYS (EN-ERR) The horizontal bars denote the uncertaintyF020700100020 of ion energy in the stacks, resulting from the foil F020700100021 thickness and the beam energy spread. F020700100022 (ERR-S) The experimental points shown on the F020700100023 curves represent the averages of several measurements; F020700100024 the rms spread is represented by the vertical bars. F020700100025 HISTORY (19960306C) F020700100026 (20100806A) Reference code was added. Error definitionsF020700100027 in Subents 001-016 were changed. F020700100028 (20160424A) SD: ANALYSIS added. COMMENT, CRITIQUE addedF020700100029 to Subent 007. REACTION code corrected in Subent 008. F020700100030 BIB update. F020700100031 ENDBIB 29 0 F020700100032 NOCOMMON 0 0 F020700100033 ENDSUBENT 32 0 F020700199999 SUBENT F0207002 20160424 F062F020700200001 BIB 4 6 F020700200002 REACTION (17-CL-35(HE3,A)17-CL-34,PAR,SIG,,REL) F020700200003 COMMENT No explanation of relative units is given. F020700200004 SAMPLE Stack of ammonium chloride (NH4Cl) foils. F020700200005 Foil was prepared by evaporation on metal surface. F020700200006 Foil thickness was 6-14 mg/cm2 thick. F020700200007 STATUS (CURVE) fig.1 of YF,1,55,1965 F020700200008 ENDBIB 6 0 F020700200009 COMMON 3 3 F020700200010 E-LVL EN-ERR-DIG ERR-DIG F020700200011 MEV MEV ARB-UNITS F020700200012 0.146 0.04 0.4 F020700200013 ENDCOMMON 3 0 F020700200014 DATA 4 8 F020700200015 EN EN-ERR DATA ERR-S F020700200016 MEV MEV ARB-UNITS ARB-UNITS F020700200017 6.56 2.42 2.6 0.5 F020700200018 11.41 1.94 3.1 0.9 F020700200019 15.33 1.38 5.1 1.2 F020700200020 18.75 1.01 6.5 1.2 F020700200021 21.64 7.2 1.2 F020700200022 24.22 1.21 8.3 1.1 F020700200023 26.71 0.98 9.2 1.9 F020700200024 29.35 0.90 9.7 0.8 F020700200025 ENDDATA 10 0 F020700200026 ENDSUBENT 25 0 F020700299999 SUBENT F0207003 20160424 F062F020700300001 BIB 5 5 F020700300002 REACTION (9-F-19(HE3,A)9-F-18,,SIG) F020700300003 SAMPLE Stack of teflon foils (CF4). Foil was 13.5 mg/cm2 thickF020700300004 ERR-ANALYS (ERR-T) The rms error of the absolute cross sections F020700300005 STATUS (CURVE) fig.1 of YF,1,55,1965 F020700300006 HISTORY (20160424A) SD: ERR-SYS -> ERR-T. F020700300007 ENDBIB 5 0 F020700300008 COMMON 3 3 F020700300009 EN-ERR-DIG ERR-DIG ERR-T F020700300010 MEV MB PER-CENT F020700300011 0.04 0.15 25.0 F020700300012 ENDCOMMON 3 0 F020700300013 DATA 4 12 F020700300014 EN EN-ERR DATA ERR-S F020700300015 MEV MEV MB MB F020700300016 7.99 2.00 14.55 1.30 F020700300017 12.21 1.32 17.44 1.67 F020700300018 14.65 1.18 14.15 1.23 F020700300019 17.07 0.28 14.34 1.23 F020700300020 19.01 1.04 17.98 1.30 F020700300021 21.02 0.37 22.57 1.23 F020700300022 22.51 0.23 27.20 1.52 F020700300023 24.22 0.84 31.41 1.38 F020700300024 25.93 0.22 35.84 1.66 F020700300025 27.25 0.31 39.66 1.88 F020700300026 28.68 0.31 43.79 2.17 F020700300027 30.28 0.62 48.14 2.32 F020700300028 ENDDATA 14 0 F020700300029 ENDSUBENT 28 0 F020700399999 SUBENT F0207004 20160424 F062F020700400001 BIB 5 7 F020700400002 REACTION (7-N-14(HE3,A)7-N-13,,SIG) F020700400003 SAMPLE Stack of ammonium chloride (NH4Cl) foils. F020700400004 Foil was prepared by evaporation on metal surface. F020700400005 Foil thickness was 6-14 mg/cm2 thick. F020700400006 ERR-ANALYS (ERR-T) The rms error of the absolute cross sections F020700400007 STATUS (CURVE)fig.1 of YF,1,55,1965 F020700400008 HISTORY (20160424A) SD: ERR-SYS -> ERR-T. F020700400009 ENDBIB 7 0 F020700400010 COMMON 3 3 F020700400011 EN-ERR-DIG ERR-DIG ERR-T F020700400012 MEV MB PER-CENT F020700400013 0.04 0.15 25.0 F020700400014 ENDCOMMON 3 0 F020700400015 DATA 4 8 F020700400016 EN EN-ERR DATA ERR-S F020700400017 MEV MEV MB MB F020700400018 6.47 2.53 22.95 5.44 F020700400019 11.57 1.77 28.56 4.49 F020700400020 15.42 1.55 20.92 3.69 F020700400021 18.84 1.04 32.96 4.13 F020700400022 21.67 1.09 62.06 11.51 F020700400023 24.32 1.18 60.16 7.53 F020700400024 26.87 0.98 84.54 5.21 F020700400025 29.39 0.84 85.67 10.07 F020700400026 ENDDATA 10 0 F020700400027 ENDSUBENT 26 0 F020700499999 SUBENT F0207005 20160424 F062F020700500001 BIB 5 5 F020700500002 REACTION (6-C-12(HE3,A)6-C-11,,SIG) F020700500003 SAMPLE Stack of polyethylene (CH2) or teflon (CF4) foils. F020700500004 ERR-ANALYS (ERR-T) The rms error of the absolute cross sections F020700500005 STATUS (CURVE)fig.1 of YF,1,55,1965 F020700500006 HISTORY (20160424A) SD: ERR-SYS -> ERR-T. F020700500007 ENDBIB 5 0 F020700500008 COMMON 3 3 F020700500009 EN-ERR-DIG ERR-DIG ERR-T F020700500010 MEV MB PER-CENT F020700500011 0.04 0.5 25.0 F020700500012 ENDCOMMON 3 0 F020700500013 DATA 4 11 F020700500014 EN EN-ERR DATA ERR-S F020700500015 MEV MEV MB MB F020700500016 5.09 2.50 78.6 19.2 F020700500017 10.13 1.83 259.2 11.1 F020700500018 13.57 1.43 189.2 17.7 F020700500019 16.50 1.21 154.9 16.0 F020700500020 19.20 0.37 119.6 11.3 F020700500021 21.51 0.73 86.1 7.6 F020700500022 23.67 0.67 75.1 7.9 F020700500023 25.61 0.67 73.8 6.7 F020700500024 27.50 0.79 67.1 8.7 F020700500025 29.49 0.59 54.1 7.3 F020700500026 31.08 0.53 47.5 7.8 F020700500027 ENDDATA 13 0 F020700500028 ENDSUBENT 27 0 F020700599999 SUBENT F0207006 20160424 F062F020700600001 BIB 5 5 F020700600002 REACTION (9-F-19(D,T)9-F-18,,SIG) F020700600003 SAMPLE Stack of teflon foils (CF4). Foil was 13.5 mg/cm2 thickF020700600004 ERR-ANALYS (ERR-T) The rms error of the absolute cross sections F020700600005 STATUS (CURVE)fig.2 of YF,1,55,1965 F020700600006 HISTORY (20160424A) SD: ERR-SYS -> ERR-T. F020700600007 ENDBIB 5 0 F020700600008 COMMON 3 3 F020700600009 EN-ERR-DIG ERR-DIG ERR-T F020700600010 MEV MB PER-CENT F020700600011 0.02 0.05 25.0 F020700600012 ENDCOMMON 3 0 F020700600013 DATA 4 20 F020700600014 EN EN-ERR DATA ERR-S F020700600015 MEV MEV MB MB F020700600016 7.19 0.14 0.70 0.40 F020700600017 8.32 2.46 F020700600018 9.22 0.62 7.95 F020700600019 9.94 13.68 F020700600020 10.65 17.66 F020700600021 11.46 19.58 F020700600022 12.12 22.50 F020700600023 12.65 26.41 F020700600024 13.35 27.47 F020700600025 13.94 29.16 F020700600026 14.55 0.42 26.53 F020700600027 15.17 29.76 F020700600028 15.75 30.74 F020700600029 16.36 31.71 F020700600030 16.91 31.90 F020700600031 17.34 36.41 F020700600032 17.81 37.58 F020700600033 18.36 39.16 F020700600034 18.66 42.04 F020700600035 19.40 43.33 F020700600036 ENDDATA 22 0 F020700600037 ENDSUBENT 36 0 F020700699999 SUBENT F0207007 20160424 F062F020700700001 BIB 7 11 F020700700002 REACTION (4-BE-9(HE3,N)6-C-11,,SIG) F020700700003 SAMPLE The stack of beryllium oxide (5-8 mg/cm2) foils. F020700700004 Foil was prepared by evaporation on thin (2.8 mg/cm2) F020700700005 aluminum backing. F020700700006 CRITIQUE Emmeric Dupont (2016-01-12): cross section 10-20 times F020700700007 too low. F020700700008 COMMENT By authors: The cross section is not larger than 10 mb F020700700009 when E > 10 MeV F020700700010 ERR-ANALYS (ERR-T) The rms error of the absolute cross sections F020700700011 STATUS (CURVE)fig.3 of YF,1,55,1965 F020700700012 HISTORY (20160424U) SD:COMMENT,CRITIQUE added. ERR-SYS -> ERR-TF020700700013 ENDBIB 11 0 F020700700014 COMMON 3 3 F020700700015 EN-ERR-DIG ERR-DIG ERR-T F020700700016 MEV MB PER-CENT F020700700017 0.03 0.01 25.0 F020700700018 ENDCOMMON 3 0 F020700700019 DATA 4 18 F020700700020 EN EN-ERR DATA ERR-S F020700700021 MEV MEV MB MB F020700700022 4.95 6.02 F020700700023 6.40 5.97 F020700700024 7.75 0.60 4.72 0.43 F020700700025 9.10 4.03 F020700700026 10.47 4.16 F020700700027 11.52 2.94 F020700700028 12.46 2.78 F020700700029 13.55 2.51 F020700700030 15.10 2.16 F020700700031 16.58 1.96 F020700700032 17.90 1.72 F020700700033 19.41 1.59 F020700700034 21.07 1.27 F020700700035 22.55 1.61 F020700700036 23.53 1.20 F020700700037 25.41 1.11 F020700700038 26.60 1.03 F020700700039 28.10 0.99 F020700700040 ENDDATA 20 0 F020700700041 ENDSUBENT 40 0 F020700799999 SUBENT F0207008 20160424 F062F020700800001 BIB 5 8 F020700800002 REACTION (8-O-16(HE3,X)9-F-18,CUM,SIG) F020700800003 SAMPLE The stack of beryllium oxide (5-8 mg/cm2) foils. F020700800004 Foil was prepared by evaporation on thin (2.8 mg/cm2) F020700800005 aluminum backing. F020700800006 ERR-ANALYS (ERR-T) The rms error of the absolute cross sections F020700800007 STATUS (CURVE)fig.3 of YF,1,55,1965 F020700800008 HISTORY (20160424A) SD:REACTION code corrected (one reaction F020700800009 was written instead of the sum) ERR-SYS -> ERR-T. F020700800010 ENDBIB 8 0 F020700800011 COMMON 3 3 F020700800012 EN-ERR-DIG ERR-DIG ERR-T F020700800013 MEV MB PER-CENT F020700800014 0.03 0.16 25.0 F020700800015 ENDCOMMON 3 0 F020700800016 DATA 4 11 F020700800017 EN EN-ERR DATA ERR-S F020700800018 MEV MEV MB MB F020700800019 10.95 1.55 205.20 12.10 F020700800020 13.51 1.19 165.90 10.66 F020700800021 15.96 0.96 116.30 8.93 F020700800022 18.07 0.28 86.84 9.26 F020700800023 19.71 0.79 63.62 8.56 F020700800024 21.53 0.39 51.18 8.18 F020700800025 23.10 0.31 45.40 6.45 F020700800026 24.50 0.34 39.92 7.14 F020700800027 26.04 0.37 35.56 7.11 F020700800028 27.57 0.54 32.98 5.33 F020700800029 29.02 0.36 29.66 6.06 F020700800030 ENDDATA 13 0 F020700800031 ENDSUBENT 30 0 F020700899999 SUBENT F0207009 20160424 F062F020700900001 BIB 5 5 F020700900002 REACTION (6-C-12(HE3,X)7-N-13,,SIG) F020700900003 SAMPLE Stack of teflon foils (CF4). Foil was 13.5 mg/cm2 thickF020700900004 ERR-ANALYS (ERR-T) The rms error of the absolute cross sections F020700900005 STATUS (CURVE)fig.3 of YF,1,55,1965 F020700900006 HISTORY (20160424A) SD: ERR-SYS -> ERR-T. F020700900007 ENDBIB 5 0 F020700900008 COMMON 3 3 F020700900009 EN-ERR-DIG ERR-DIG ERR-T F020700900010 MEV MB PER-CENT F020700900011 0.04 0.3 25.0 F020700900012 ENDCOMMON 3 0 F020700900013 DATA 4 9 F020700900014 EN EN-ERR DATA ERR-S F020700900015 MEV MEV MB MB F020700900016 9.759 113.40 24.32 F020700900017 13.44 0.25 152.80 26.11 F020700900018 16.37 125.90 11.44 F020700900019 19.28 97.47 9.68 F020700900020 23.46 81.98 9.31 F020700900021 25.55 0.68 69.05 7.50 F020700900022 27.66 60.05 8.25 F020700900023 29.41 55.60 5.76 F020700900024 30.80 54.24 5.00 F020700900025 ENDDATA 11 0 F020700900026 ENDSUBENT 25 0 F020700999999 SUBENT F0207010 20160424 F062F020701000001 BIB 5 7 F020701000002 REACTION (5-B-10(HE3,X)6-C-11,,SIG) F020701000003 SAMPLE The stack of enriched (88%-10B) natural boron. F020701000004 Foil 5-8 mg/cm2 thick was prepared by evaporation F020701000005 on thin (2.8 mg/cm2) aluminum backing. F020701000006 ERR-ANALYS (ERR-T) The rms error of the absolute cross sections F020701000007 STATUS (CURVE)fig.4 of YF,1,55,1965 F020701000008 HISTORY (20160424A) SD: ERR-SYS -> ERR-T. F020701000009 ENDBIB 7 0 F020701000010 COMMON 3 3 F020701000011 EN-ERR-DIG ERR-DIG ERR-T F020701000012 MEV MB PER-CENT F020701000013 0.04 0.7 25.0 F020701000014 ENDCOMMON 3 0 F020701000015 DATA 4 9 F020701000016 EN EN-ERR DATA ERR-S F020701000017 MEV MEV MB MB F020701000018 8.87 1.55 223.3 38.3 F020701000019 13.20 1.21 276.1 25.4 F020701000020 16.01 222.7 31.5 F020701000021 18.99 0.91 174.2 24.3 F020701000022 21.54 153.2 18.6 F020701000023 24.00 125.0 15.0 F020701000024 25.99 0.65 114.9 14.0 F020701000025 28.05 103.8 14.6 F020701000026 29.78 85.39 12.9 F020701000027 ENDDATA 11 0 F020701000028 ENDSUBENT 27 0 F020701099999 SUBENT F0207011 20160424 F062F020701100001 BIB 5 5 F020701100002 REACTION (13-AL-27(HE3,2A)11-NA-22,,SIG) F020701100003 SAMPLE Stack of natural aluminum foils. F020701100004 ERR-ANALYS (ERR-T) The rms error of the absolute cross sections F020701100005 STATUS (CURVE)fig.5 of YF,1,55,1965 F020701100006 HISTORY (20160424A) SD: ERR-SYS -> ERR-T. F020701100007 ENDBIB 5 0 F020701100008 COMMON 3 3 F020701100009 EN-ERR-DIG ERR-DIG ERR-T F020701100010 MEV MB PER-CENT F020701100011 0.04 0.1 25.0 F020701100012 ENDCOMMON 3 0 F020701100013 DATA 4 18 F020701100014 EN EN-ERR DATA ERR-S F020701100015 MEV MEV MB MB F020701100016 6.49 0.28 1.1 0.7 F020701100017 9.00 2.6 F020701100018 10.93 2.3 F020701100019 12.71 7.9 F020701100020 14.55 9.9 F020701100021 15.73 1.04 15.4 0.7 F020701100022 16.89 21.5 F020701100023 18.50 28.0 F020701100024 20.06 0.70 30.4 1.2 F020701100025 20.95 33.4 F020701100026 21.88 33.8 F020701100027 22.88 32.9 F020701100028 24.00 32.7 F020701100029 25.21 32.1 F020701100030 26.26 29.8 F020701100031 27.21 29.6 F020701100032 28.34 25.9 F020701100033 29.30 22.1 F020701100034 ENDDATA 20 0 F020701100035 ENDSUBENT 34 0 F020701199999 SUBENT F0207012 20160424 F062F020701200001 BIB 5 7 F020701200002 REACTION (8-O-16(HE3,2A)6-C-11,,SIG) F020701200003 SAMPLE The stack foils of beryllium oxide (5-8mg/cm2) were F020701200004 prepared by evaporation on thin (2.8 mg/cm2) aluminum F020701200005 backing. F020701200006 ERR-ANALYS (ERR-T) The rms error of the absolute cross sections F020701200007 STATUS (CURVE)fig.5 of YF,1,55,1965 F020701200008 HISTORY (20160424A) SD: ERR-SYS -> ERR-T. F020701200009 ENDBIB 7 0 F020701200010 COMMON 3 3 F020701200011 EN-ERR-DIG ERR-DIG ERR-T F020701200012 MEV MB PER-CENT F020701200013 0.04 0.1 25.0 F020701200014 ENDCOMMON 3 0 F020701200015 DATA 4 11 F020701200016 EN EN-ERR DATA ERR-S F020701200017 MEV MEV MB MB F020701200018 11.17 1.40 18.9 7.7 F020701200019 13.57 0.31 30.6 4.8 F020701200020 15.97 0.67 36.2 5.0 F020701200021 17.81 0.25 39.3 4.9 F020701200022 19.57 43.3 4.5 F020701200023 21.19 45.3 4.3 F020701200024 23.19 46.8 4.7 F020701200025 24.44 0.70 48.7 5.2 F020701200026 26.17 37.2 4.6 F020701200027 27.63 37.3 4.6 F020701200028 29.02 25.6 5.3 F020701200029 ENDDATA 13 0 F020701200030 ENDSUBENT 29 0 F020701299999 SUBENT F0207013 20160424 F062F020701300001 BIB 5 5 F020701300002 REACTION (13-AL-27(HE3,3P)12-MG-27,,SIG) F020701300003 SAMPLE Stack of natural aluminum foils. F020701300004 ERR-ANALYS (ERR-T) The rms error of the absolute cross sections F020701300005 STATUS (CURVE)fig.6 of YF,1,55,1965 F020701300006 HISTORY (20160424A) SD: ERR-SYS -> ERR-T. F020701300007 ENDBIB 5 0 F020701300008 COMMON 5 3 F020701300009 EN-ERR-DIG ERR-DIG ERR-T EN-ERR ERR-S F020701300010 MEV MB PER-CENT MEV MB F020701300011 0.04 0.1 25.0 0.2 0.5 F020701300012 ENDCOMMON 3 0 F020701300013 DATA 2 11 F020701300014 EN DATA F020701300015 MEV MB F020701300016 18.16 0.9 F020701300017 19.00 0.5 F020701300018 20.13 0.7 F020701300019 21.59 1.0 F020701300020 22.75 1.4 F020701300021 23.86 2.4 F020701300022 24.80 3.9 F020701300023 25.81 6.3 F020701300024 26.73 8.7 F020701300025 27.72 11.8 F020701300026 28.79 15.7 F020701300027 ENDDATA 13 0 F020701300028 ENDSUBENT 27 0 F020701399999 SUBENT F0207014 20160424 F062F020701400001 BIB 5 5 F020701400002 REACTION (13-AL-27(HE3,2P+A)11-NA-24,,SIG) F020701400003 SAMPLE Stack of natural aluminum foils. F020701400004 ERR-ANALYS (ERR-T) The rms error of the absolute cross sections F020701400005 STATUS (CURVE)fig.6 of YF,1,55,1965 F020701400006 HISTORY (20160424A) SD: ERR-SYS -> ERR-T. F020701400007 ENDBIB 5 0 F020701400008 COMMON 5 3 F020701400009 EN-ERR-DIG ERR-DIG ERR-T EN-ERR ERR-S F020701400010 MEV MB PER-CENT MEV MB F020701400011 0.04 0.1 25.0 0.2 0.5 F020701400012 ENDCOMMON 3 0 F020701400013 DATA 2 8 F020701400014 EN DATA F020701400015 MEV MB F020701400016 17.83 1.9 F020701400017 19.99 1.5 F020701400018 21.91 2.3 F020701400019 23.70 3.6 F020701400020 25.33 4.0 F020701400021 26.90 5.9 F020701400022 28.51 6.6 F020701400023 29.83 12.5 F020701400024 ENDDATA 10 0 F020701400025 ENDSUBENT 24 0 F020701499999 SUBENT F0207015 20160424 F062F020701500001 BIB 4 4 F020701500002 REACTION (13-AL-27(HE3,2P)13-AL-28,,SIG,,REL) F020701500003 COMMENT No explanation of relative units is given. F020701500004 SAMPLE Stack of natural aluminum foils. F020701500005 STATUS (CURVE)fig.6 of YF,1,55,1965 F020701500006 ENDBIB 4 0 F020701500007 COMMON 2 3 F020701500008 EN-ERR-DIG ERR-DIG F020701500009 MEV ARB-UNITS F020701500010 0.04 0.1 F020701500011 ENDCOMMON 3 0 F020701500012 DATA 4 14 F020701500013 EN EN-ERR DATA ERR-S F020701500014 MEV MEV ARB-UNITS ARB-UNITS F020701500015 6.276 14.54 F020701500016 9.994 1.38 23.78 3.63 F020701500017 11.92 27.93 F020701500018 13.43 30.04 F020701500019 14.67 30.04 1.35 F020701500020 15.85 30.11 F020701500021 17.14 29.95 F020701500022 18.11 28.54 F020701500023 20.30 0.62 24.92 1.71 F020701500024 22.20 22.88 1.43 F020701500025 24.47 0.31 19.90 0.64 F020701500026 26.06 0.56 18.38 1.29 F020701500027 27.43 17.30 1.28 F020701500028 29.22 16.33 F020701500029 ENDDATA 16 0 F020701500030 ENDSUBENT 29 0 F020701599999 SUBENT F0207016 20160424 F062F020701600001 BIB 5 7 F020701600002 REACTION (5-B-11(HE3,T)6-C-11,,SIG) F020701600003 SAMPLE Stack of natural boron(5-8 mg/cm2) foils. F020701600004 Foil was prepared by evaporation on thin (2.8 mg/cm2) F020701600005 aluminum backing. F020701600006 ERR-ANALYS (ERR-T) The rms error of the absolute cross sections F020701600007 STATUS (CURVE)fig.6 of YF,1,55,1965 F020701600008 HISTORY (20160424A) SD: ERR-SYS -> ERR-T. F020701600009 ENDBIB 7 0 F020701600010 COMMON 3 3 F020701600011 EN-ERR-DIG ERR-DIG ERR-T F020701600012 MEV MB PER-CENT F020701600013 0.04 0.1 25.0 F020701600014 ENDCOMMON 3 0 F020701600015 DATA 4 9 F020701600016 EN EN-ERR DATA ERR-S F020701600017 MEV MEV MB MB F020701600018 8.998 1.63 40.13 10.46 F020701600019 13.33 40.15 5.120 F020701600020 16.43 1.04 46.22 6.121 F020701600021 19.06 0.34 45.28 7.187 F020701600022 21.48 0.79 42.21 6.976 F020701600023 23.89 52.52 7.475 F020701600024 25.90 54.39 5.054 F020701600025 27.94 0.76 49.28 7.257 F020701600026 29.84 51.59 5.767 F020701600027 ENDDATA 11 0 F020701600028 ENDSUBENT 27 0 F020701699999 ENDENTRY 16 0 F020799999999