ENTRY C0634 20160709 C159C063400000001 SUBENT C0634001 20160709 C159C063400100001 BIB 11 32 C063400100002 AUTHOR (H.M.Kuan,M.Hasinoff,W.J.O'Connell,S.S.Hanna) C063400100003 TITLE The giant dipole resonances in 11C and 15O observed C063400100004 with the reactions 10B(p,gamma) and 14N(p,gamma)15O C063400100005 REFERENCE (J,NP/A,151,129,1970) C063400100006 #doi:10.1016/0375-9474(70)90973-5 C063400100007 REL-REF (I,,M.Suffert+,J,NIM,63,1,1968) C063400100008 INSTITUTE (1USASTF) C063400100009 FACILITY (VDGT,1USASTF) The Stanford FN-tandem Van de Graaff C063400100010 accelerator provided proton beams from 2.2 to 19 MeV. C063400100011 DETECTOR (NAICR,SCIN) C063400100012 PART-DET (G) C063400100013 METHOD (COINC) The gamma-rays were detected with a 24 cmx 24 C063400100014 cm NaI(Tl) crystal surrounded by a plastic C063400100015 scintillator operated in anticoincidence. The use of C063400100016 fast electronics makes efficient pile-up suppression C063400100017 possible with negligible deadtime even in the C063400100018 presence of high background. In an effort to reduce C063400100019 background, radiations from sources other than the C063400100020 target itself were reduced to a minimum. Only one C063400100021 aperture was placed between the target and the C063400100022 switching magnet which was located outside the target C063400100023 room. The beam current striking this aperture one C063400100024 meter in front of the target was monitored and C063400100025 maintained at less than 0.2 % of the target current. C063400100026 After traversing the thin targets the beam was C063400100027 collected in a Faraday cup, surrounding by shielding, C063400100028 about 4 m from the target. C063400100029 ERR-ANALYS (DATA-ERR) No information on source of uncertainties. C063400100030 HISTORY (20000407C) VM C063400100031 (20140110A) BP: Digitized Figs. 3,4,5,7,8. NACRE C063400100032 data from subentry 3 replaced. C063400100033 (20160705A) OS. REACTION corrected in subs.6-48 C063400100034 ENDBIB 32 0 C063400100035 NOCOMMON 0 0 C063400100036 ENDSUBENT 35 0 C063400199999 SUBENT C0634002 20140110 C138C063400200001 BIB 3 5 C063400200002 REACTION (5-B-10(P,G)6-C-11,PAR,DA) C063400200003 STATUS (CURVE) Fig.3, page 134. C063400200004 SAMPLE (5-B-10,ENR=0.965) Target consisted of three stacked, C063400200005 self-supporting 10B foils made by electron gun C063400200006 evaporation. Each foil was about 100 microg/cm2 thick.C063400200007 ENDBIB 5 0 C063400200008 COMMON 2 3 C063400200009 E-LVL ANG C063400200010 MEV ADEG C063400200011 0. 90.0 C063400200012 ENDCOMMON 3 0 C063400200013 DATA 3 123 C063400200014 EN DATA DATA-ERR C063400200015 MEV MU-B/SR MU-B/SR C063400200016 2.603 0.2 0.012 C063400200017 2.807 0.303 0.022 C063400200018 3.006 0.327 0.017 C063400200019 3.199 0.496 0.02 C063400200020 3.397 0.585 0.02 C063400200021 3.596 0.657 0.018 C063400200022 3.745 0.728 0.022 C063400200023 3.894 0.758 0.021 C063400200024 4.018 0.757 0.017 C063400200025 4.092 0.77 0.018 C063400200026 4.191 0.752 0.014 C063400200027 4.284 0.728 0.019 C063400200028 4.337 0.699 0.019 C063400200029 4.430 0.694 0.019 C063400200030 4.484 0.666 0.019 C063400200031 4.577 0.644 0.019 C063400200032 4.630 0.632 0.019 C063400200033 4.683 0.658 0.022 C063400200034 4.790 0.637 0.024 C063400200035 4.883 0.658 0.026 C063400200036 4.976 0.642 0.022 C063400200037 5.029 0.627 0.019 C063400200038 5.083 0.574 0.017 C063400200039 5.136 0.558 0.017 C063400200040 5.189 0.538 0.014 C063400200041 5.229 0.524 0.019 C063400200042 5.309 0.538 0.014 C063400200043 5.415 0.517 0.017 C063400200044 5.522 0.512 0.017 C063400200045 5.575 0.534 0.012 C063400200046 5.682 0.514 0.017 C063400200047 5.735 0.531 0.017 C063400200048 5.775 0.543 0.017 C063400200049 5.828 0.567 0.017 C063400200050 5.881 0.553 0.019 C063400200051 5.934 0.574 0.014 C063400200052 5.988 0.584 0.014 C063400200053 6.081 0.608 0.017 C063400200054 6.134 0.622 0.014 C063400200055 6.187 0.625 0.022 C063400200056 6.241 0.644 0.019 C063400200057 6.307 0.678 0.019 C063400200058 6.400 0.75 0.022 C063400200059 6.480 0.846 0.019 C063400200060 6.560 0.906 0.019 C063400200061 6.653 0.951 0.017 C063400200062 6.760 0.985 0.017 C063400200063 6.826 1.045 0.017 C063400200064 6.906 1.042 0.017 C063400200065 6.973 1.066 0.017 C063400200066 7.026 1.05 0.012 C063400200067 7.079 1.052 0.019 C063400200068 7.132 1.016 0.014 C063400200069 7.172 1.035 0.017 C063400200070 7.225 1.052 0.024 C063400200071 7.279 0.997 0.017 C063400200072 7.345 1.016 0.019 C063400200073 7.399 0.961 0.017 C063400200074 7.478 0.93 0.019 C063400200075 7.545 0.942 0.019 C063400200076 7.638 0.896 0.019 C063400200077 7.691 0.903 0.019 C063400200078 7.784 0.894 0.022 C063400200079 7.824 0.884 0.014 C063400200080 7.878 0.879 0.019 C063400200081 7.958 0.882 0.017 C063400200082 8.064 0.915 0.014 C063400200083 8.210 0.898 0.017 C063400200084 8.317 0.92 0.022 C063400200085 8.397 0.99 0.019 C063400200086 8.477 1.016 0.017 C063400200087 8.570 1.071 0.019 C063400200088 8.650 1.081 0.022 C063400200089 8.756 1.083 0.022 C063400200090 8.849 1.05 0.022 C063400200091 8.942 1.026 0.022 C063400200092 9.169 1.026 0.024 C063400200093 9.275 0.932 0.026 C063400200094 9.422 0.949 0.026 C063400200095 9.528 0.91 0.024 C063400200096 9.674 0.882 0.024 C063400200097 9.794 0.886 0.019 C063400200098 9.954 0.829 0.019 C063400200099 10.100 0.846 0.024 C063400200100 10.260 0.87 0.019 C063400200101 10.407 0.843 0.022 C063400200102 10.553 0.843 0.022 C063400200103 10.699 0.8 0.022 C063400200104 10.859 0.774 0.019 C063400200105 11.005 0.728 0.019 C063400200106 11.152 0.781 0.019 C063400200107 11.298 0.733 0.019 C063400200108 11.445 0.709 0.017 C063400200109 11.604 0.642 0.019 C063400200110 11.724 0.639 0.019 C063400200111 11.937 0.637 0.017 C063400200112 12.030 0.67 0.017 C063400200113 12.163 0.618 0.017 C063400200114 12.350 0.646 0.019 C063400200115 12.563 0.649 0.019 C063400200116 12.762 0.598 0.019 C063400200117 12.962 0.625 0.017 C063400200118 13.162 0.601 0.017 C063400200119 13.361 0.639 0.014 C063400200120 13.508 0.646 0.019 C063400200121 13.601 0.62 0.014 C063400200122 13.761 0.668 0.017 C063400200123 13.947 0.646 0.019 C063400200124 14.160 0.582 0.017 C063400200125 14.360 0.613 0.017 C063400200126 14.559 0.567 0.019 C063400200127 14.759 0.594 0.019 C063400200128 14.959 0.637 0.017 C063400200129 15.158 0.574 0.017 C063400200130 15.358 0.596 0.017 C063400200131 15.557 0.529 0.019 C063400200132 15.757 0.493 0.019 C063400200133 15.957 0.572 0.017 C063400200134 16.063 0.471 0.014 C063400200135 16.170 0.565 0.014 C063400200136 16.356 0.498 0.017 C063400200137 16.556 0.459 0.017 C063400200138 16.755 0.495 0.017 C063400200139 ENDDATA 125 0 C063400200140 ENDSUBENT 139 0 C063400299999 SUBENT C0634003 20140110 C138C063400300001 BIB 4 6 C063400300002 REACTION (5-B-10(P,G)6-C-11,PAR,SIG) C063400300003 ANALYSIS Cross section obtained from first coefficient of C063400300004 Legendre fit to angular distribution C063400300005 STATUS (CURVE) Top panel of Fig.5 C063400300006 (DEP,C0634002) C063400300007 HISTORY (20140110A) BP. NACRE data replaced by Fig.5 data. C063400300008 ENDBIB 6 0 C063400300009 COMMON 1 3 C063400300010 E-LVL C063400300011 MEV C063400300012 0. C063400300013 ENDCOMMON 3 0 C063400300014 DATA 2 15 C063400300015 EN DATA C063400300016 MEV MICRO-B C063400300017 2.844 3.814 C063400300018 4.068 9.487 C063400300019 4.803 7.302 C063400300020 5.537 5.581 C063400300021 6.027 6.511 C063400300022 6.544 7.813 C063400300023 7.061 9.627 C063400300024 7.578 9.069 C063400300025 8.041 8.046 C063400300026 8.748 10.883 C063400300027 9.401 10.139 C063400300028 10.054 8.976 C063400300029 11.034 7.488 C063400300030 12.041 6.790 C063400300031 14.027 5.953 C063400300032 ENDDATA 17 0 C063400300033 ENDSUBENT 32 0 C063400399999 SUBENT C0634004 20140110 C138C063400400001 BIB 3 5 C063400400002 REACTION (7-N-14(P,G)8-O-15,PAR,DA) C063400400003 STATUS (CURVE) Fig.7, page 137. C063400400004 SAMPLE The 14N gas was contained in a transmission cell C063400400005 mounted in a 20 cm scattering chamber with an 0.16 cm C063400400006 stainless steel wall. C063400400007 ENDBIB 5 0 C063400400008 COMMON 2 3 C063400400009 E-LVL ANG C063400400010 MEV ADEG C063400400011 0. 90.0 C063400400012 ENDCOMMON 3 0 C063400400013 DATA 3 201 C063400400014 EN DATA DATA-ERR C063400400015 MEV MU-B/SR MU-B/SR C063400400016 2.191 0.923 0.033 C063400400017 2.254 1.127 0.034 C063400400018 2.268 1.428 0.034 C063400400019 2.306 1.747 0.034 C063400400020 2.325 1.945 0.03 C063400400021 2.344 2.251 0.052 C063400400022 2.360 2.423 0.06 C063400400023 2.381 2.321 0.052 C063400400024 2.400 1.799 0.043 C063400400025 2.400 1.385 0.039 C063400400026 2.431 1.282 0.03 C063400400027 2.445 1.408 0.032 C063400400028 2.487 1.734 0.034 C063400400029 2.501 1.641 0.028 C063400400030 2.508 0.884 0.029 C063400400031 2.526 0.674 0.03 C063400400032 2.544 0.456 0.032 C063400400033 2.586 0.209 0.026 C063400400034 2.635 0.194 0.028 C063400400035 2.678 0.102 0.031 C063400400036 2.720 0.117 0.028 C063400400037 2.745 0.127 0.022 C063400400038 2.798 0.136 0.031 C063400400039 2.833 0.092 0.026 C063400400040 2.868 0.083 0.029 C063400400041 2.904 0.083 0.02 C063400400042 2.951 0.067 0.022 C063400400043 3.002 0.067 0.022 C063400400044 3.038 0.126 0.025 C063400400045 3.087 0.121 0.02 C063400400046 3.115 0.073 0.028 C063400400047 3.158 0.102 0.022 C063400400048 3.200 0.097 0.026 C063400400049 3.242 0.078 0.028 C063400400050 3.290 0.123 0.026 C063400400051 3.334 0.155 0.024 C063400400052 3.371 0.33 0.034 C063400400053 3.419 0.262 0.027 C063400400054 3.440 0.102 0.022 C063400400055 3.489 0.121 0.025 C063400400056 3.539 0.092 0.021 C063400400057 3.567 0.18 0.031 C063400400058 3.616 0.18 0.027 C063400400059 3.666 0.223 0.027 C063400400060 3.701 0.248 0.022 C063400400061 3.740 0.274 0.017 C063400400062 3.786 0.296 0.027 C063400400063 3.821 0.35 0.02 C063400400064 3.871 0.714 0.027 C063400400065 3.899 0.923 0.029 C063400400066 3.934 0.995 0.028 C063400400067 3.969 1. 0.024 C063400400068 3.991 0.937 0.03 C063400400069 4.040 0.869 0.031 C063400400070 4.066 0.92 0.034 C063400400071 4.111 0.976 0.026 C063400400072 4.125 1.112 0.028 C063400400073 4.153 1.748 0.035 C063400400074 4.181 2.695 0.026 C063400400075 4.204 2.919 0.03 C063400400076 4.224 1.942 0.023 C063400400077 4.245 0.777 0.016 C063400400078 4.245 1.112 0.033 C063400400079 4.279 0.795 0.03 C063400400080 4.315 0.753 0.031 C063400400081 4.351 0.748 0.024 C063400400082 4.409 0.756 0.029 C063400400083 4.469 0.758 0.028 C063400400084 4.471 0.864 0.026 C063400400085 4.514 0.917 0.024 C063400400086 4.557 1.053 0.033 C063400400087 4.594 1.01 0.021 C063400400088 4.656 0.967 0.026 C063400400089 4.696 0.838 0.028 C063400400090 4.742 0.755 C063400400091 4.777 0.715 C063400400092 4.811 0.743 C063400400093 4.845 0.759 C063400400094 4.879 0.775 C063400400095 4.947 0.779 C063400400096 4.993 0.779 C063400400097 5.039 0.771 C063400400098 5.118 0.775 C063400400099 5.153 0.771 C063400400100 5.176 0.707 C063400400101 5.210 0.707 C063400400102 5.244 0.779 C063400400103 5.278 0.723 C063400400104 5.324 0.735 C063400400105 5.358 0.723 C063400400106 5.415 0.759 C063400400107 5.415 0.731 C063400400108 5.437 0.807 C063400400109 5.506 0.775 C063400400110 5.540 0.807 C063400400111 5.563 0.811 C063400400112 5.597 0.842 C063400400113 5.631 0.858 C063400400114 5.665 0.874 C063400400115 5.699 0.827 C063400400116 5.733 0.946 0.024 C063400400117 5.778 1.025 C063400400118 5.847 1.005 C063400400119 5.858 1.069 C063400400120 5.904 1.065 C063400400121 5.949 1.156 0.028 C063400400122 5.995 1.053 C063400400123 6.018 1.065 C063400400124 6.052 1.069 C063400400125 6.086 1.025 C063400400126 6.132 0.89 0.036 C063400400127 6.189 0.998 C063400400128 6.245 1.156 C063400400129 6.279 1.311 C063400400130 6.347 1.315 C063400400131 6.381 1.407 C063400400132 6.438 1.415 C063400400133 6.495 1.494 C063400400134 6.541 1.458 C063400400135 6.609 1.542 0.04 C063400400136 6.654 1.498 C063400400137 6.700 1.458 C063400400138 6.746 1.49 C063400400139 6.803 1.395 C063400400140 6.849 1.335 C063400400141 6.917 1.304 C063400400142 6.940 1.387 C063400400143 7.020 1.359 C063400400144 7.054 1.407 0.024 C063400400145 7.100 1.248 C063400400146 7.157 1.26 C063400400147 7.225 1.209 C063400400148 7.271 1.133 C063400400149 7.317 1.105 C063400400150 7.397 1.07 0.028 C063400400151 7.477 0.915 C063400400152 7.603 0.8 0.004 C063400400153 7.683 0.704 0.032 C063400400154 7.831 0.919 0.028 C063400400155 7.967 1.141 0.04 C063400400156 8.091 1.407 0.04 C063400400157 8.296 1.467 0.036 C063400400158 8.478 1.424 0.04 C063400400159 8.695 1.447 0.036 C063400400160 8.901 1.146 0.032 C063400400161 9.073 0.908 0.032 C063400400162 9.290 0.84 0.032 C063400400163 9.485 0.598 0.036 C063400400164 9.542 0.542 0.032 C063400400165 9.644 0.594 0.032 C063400400166 9.847 1.142 0.044 C063400400167 10.052 1.4 0.048 C063400400168 10.245 1.5 0.044 C063400400169 10.428 1.401 0.052 C063400400170 10.656 1.341 0.052 C063400400171 10.863 0.948 0.036 C063400400172 11.171 0.722 0.036 C063400400173 11.353 0.897 0.028 C063400400174 11.569 1.064 0.036 C063400400175 11.659 1.203 0.036 C063400400176 11.773 1.278 0.036 C063400400177 11.876 1.314 0.032 C063400400178 12.024 1.31 0.036 C063400400179 12.161 1.302 0.04 C063400400180 12.263 1.262 0.032 C063400400181 12.492 1.132 0.032 C063400400182 12.686 1.148 0.028 C063400400183 12.891 1.167 0.028 C063400400184 13.096 1.243 0.028 C063400400185 13.278 1.267 0.032 C063400400186 13.483 1.37 0.032 C063400400187 13.687 1.501 0.032 C063400400188 13.790 1.442 0.036 C063400400189 13.892 1.537 0.028 C063400400190 14.097 1.657 0.024 C063400400191 14.279 1.669 0.04 C063400400192 14.382 1.549 0.04 C063400400193 14.496 1.538 0.04 C063400400194 14.679 1.47 0.04 C063400400195 14.793 1.518 0.032 C063400400196 14.907 1.47 0.04 C063400400197 15.090 1.415 0.036 C063400400198 15.295 1.407 0.04 C063400400199 15.511 1.498 0.036 C063400400200 15.693 1.538 0.036 C063400400201 15.910 1.51 0.036 C063400400202 16.115 1.483 0.036 C063400400203 16.309 1.419 0.036 C063400400204 16.514 1.451 0.04 C063400400205 16.720 1.408 0.036 C063400400206 16.913 1.412 0.036 C063400400207 17.119 1.324 0.036 C063400400208 17.313 1.285 0.036 C063400400209 17.518 1.237 0.032 C063400400210 17.724 1.194 0.036 C063400400211 17.918 1.106 0.028 C063400400212 18.123 1.039 0.032 C063400400213 18.317 0.979 0.028 C063400400214 18.534 0.888 0.032 C063400400215 18.728 0.841 0.028 C063400400216 18.933 0.809 0.024 C063400400217 ENDDATA 203 0 C063400400218 ENDSUBENT 217 0 C063400499999 SUBENT C0634005 20140116 C138C063400500001 BIB 2 5 C063400500002 REACTION 1(7-N-14(P,0),,EN) C063400500003 2(7-N-14(P,0),,J) C063400500004 3(7-N-14(P,0),,PTY) C063400500005 4(7-N-14(P,G),,WID) C063400500006 STATUS (TABLE) Table 1, page 138. C063400500007 ENDBIB 5 0 C063400500008 NOCOMMON 0 0 C063400500009 DATA 5 15 C063400500010 DATA 1DATA 2DATA 3DATA 4DATA-APRX 4 C063400500011 MEV NO-DIM NO-DIM KEV KEV C063400500012 2.352 2.5 -1.0 10.0 C063400500013 2.36 0.5 1.0 300.0 C063400500014 2.480 1.5 -1.0 13.0 C063400500015 3.39 50.0 C063400500016 3.95 100.0 C063400500017 4.20 1.5 1.0 40.0 C063400500018 4.58 150.0 C063400500019 5.9 250.0 C063400500020 6.6 1000.0 C063400500021 7.05 150.0 C063400500022 8.4 1000.0 C063400500023 10.3 1000.0 C063400500024 11.9 1000.0 C063400500025 14.2 2000.0 C063400500026 15.8 2000.0 C063400500027 ENDDATA 17 0 C063400500028 ENDSUBENT 27 0 C063400599999 SUBENT C0634006 20160709 C159C063400600001 BIB 5 10 C063400600002 REACTION (5-B-10(P,G)6-C-11,PAR,DA,,RS) C063400600003 STATUS (CURVE) Fig.4, page 135. C063400600004 SAMPLE (5-B-10,ENR=0.965) The target was made by evaporating C063400600005 10B (about 150 microg/cm2) onto a 0.254 mm gold C063400600006 backing. The target was inserted into a glass "T" and C063400600007 the Faraday cup was removed. C063400600008 COMMENT Angular distribution is plotted in units of l/Ao, C063400600009 where Ao is obtained from the least-squares fit to C063400600010 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063400600011 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063400600012 ENDBIB 10 0 C063400600013 COMMON 2 3 C063400600014 EN E-LVL C063400600015 MEV MEV C063400600016 2.8 0.0 C063400600017 ENDCOMMON 3 0 C063400600018 DATA 3 5 C063400600019 ANG DATA DATA-ERR C063400600020 ADEG NO-DIM NO-DIM C063400600021 44.507 1.036 0.066 C063400600022 59.439 1.037 0.066 C063400600023 89.311 1.007 0.077 C063400600024 119.851 1.020 0.077 C063400600025 135.492 0.911 0.088 C063400600026 ENDDATA 7 0 C063400600027 ENDSUBENT 26 0 C063400699999 SUBENT C0634007 20160709 C159C063400700001 BIB 5 10 C063400700002 REACTION (5-B-10(P,G)6-C-11,PAR,DA,,RS) C063400700003 STATUS (CURVE) Fig.4, page 135. C063400700004 SAMPLE (5-B-10,ENR=0.965) The target was made by evaporating C063400700005 10B (about 150 microg/cm2) onto a 0.254 mm gold C063400700006 backing. The target was inserted into a glass "T" and C063400700007 the Faraday cup was removed. C063400700008 COMMENT Angular distribution is plotted in units of l/Ao, C063400700009 where Ao is obtained from the least-squares fit to C063400700010 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063400700011 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063400700012 ENDBIB 10 0 C063400700013 COMMON 2 3 C063400700014 EN E-LVL C063400700015 MEV MEV C063400700016 4.0 0.0 C063400700017 ENDCOMMON 3 0 C063400700018 DATA 3 11 C063400700019 ANG DATA DATA-ERR C063400700020 ADEG NO-DIM NO-DIM C063400700021 6.821 1.012 0.067 C063400700022 14.857 1.013 0.067 C063400700023 21.552 1.014 0.056 C063400700024 29.617 0.960 0.056 C063400700025 44.324 1.007 0.067 C063400700026 59.719 1.020 0.067 C063400700027 74.456 1.011 0.055 C063400700028 89.199 0.991 0.056 C063400700029 103.924 1.004 0.067 C063400700030 119.324 1.007 0.056 C063400700031 134.055 1.009 0.067 C063400700032 ENDDATA 13 0 C063400700033 ENDSUBENT 32 0 C063400799999 SUBENT C0634008 20160709 C159C063400800001 BIB 5 10 C063400800002 REACTION (5-B-10(P,G)6-C-11,PAR,DA,,RS) C063400800003 STATUS (CURVE) Fig.4, page 135. C063400800004 SAMPLE (5-B-10,ENR=0.965) The target was made by evaporating C063400800005 10B (about 150 microg/cm2) onto a 0.254 mm gold C063400800006 backing. The target was inserted into a glass "T" and C063400800007 the Faraday cup was removed. C063400800008 COMMENT Angular distribution is plotted in units of l/Ao, C063400800009 where Ao is obtained from the least-squares fit to C063400800010 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063400800011 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063400800012 ENDBIB 10 0 C063400800013 COMMON 2 3 C063400800014 EN E-LVL C063400800015 MEV MEV C063400800016 4.75 0.0 C063400800017 ENDCOMMON 3 0 C063400800018 DATA 3 5 C063400800019 ANG DATA DATA-ERR C063400800020 ADEG NO-DIM NO-DIM C063400800021 45.419 1.181 0.078 C063400800022 60.241 1.093 0.067 C063400800023 90.531 1.018 0.067 C063400800024 120.842 0.864 0.067 C063400800025 134.964 0.877 0.078 C063400800026 ENDDATA 7 0 C063400800027 ENDSUBENT 26 0 C063400899999 SUBENT C0634009 20160709 C159C063400900001 BIB 5 10 C063400900002 REACTION (5-B-10(P,G)6-C-11,PAR,DA,,RS) C063400900003 STATUS (CURVE) Fig.4, page 135. C063400900004 SAMPLE (5-B-10,ENR=0.965) The target was made by evaporating C063400900005 10B (about 150 microg/cm2) onto a 0.254 mm gold C063400900006 backing. The target was inserted into a glass "T" and C063400900007 the Faraday cup was removed. C063400900008 COMMENT Angular distribution is plotted in units of l/Ao, C063400900009 where Ao is obtained from the least-squares fit to C063400900010 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063400900011 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063400900012 ENDBIB 10 0 C063400900013 COMMON 2 3 C063400900014 EN E-LVL C063400900015 MEV MEV C063400900016 5.5 0.0 C063400900017 ENDCOMMON 3 0 C063400900018 DATA 3 14 C063400900019 ANG DATA DATA-ERR C063400900020 ADEG NO-DIM NO-DIM C063400900021 1.010 1.211 0.055 C063400900022 6.385 1.145 0.078 C063400900023 14.412 1.179 0.067 C063400900024 20.451 1.135 0.067 C063400900025 29.159 1.124 0.067 C063400900026 44.566 1.103 0.055 C063400900027 51.932 1.104 0.067 C063400900028 59.289 1.138 0.055 C063400900029 74.048 1.039 0.078 C063400900030 82.077 1.061 0.067 C063400900031 89.455 1.018 0.056 C063400900032 104.214 0.919 0.055 C063400900033 118.931 0.975 0.067 C063400900034 135.035 0.854 0.078 C063400900035 ENDDATA 16 0 C063400900036 ENDSUBENT 35 0 C063400999999 SUBENT C0634010 20160709 C159C063401000001 BIB 5 10 C063401000002 REACTION (5-B-10(P,G)6-C-11,PAR,DA,,RS) C063401000003 STATUS (CURVE) Fig.4, page 135. C063401000004 SAMPLE (5-B-10,ENR=0.965) The target was made by evaporating C063401000005 10B (about 150 microg/cm2) onto a 0.254 mm gold C063401000006 backing. The target was inserted into a glass "T" and C063401000007 the Faraday cup was removed. C063401000008 COMMENT Angular distribution is plotted in units of l/Ao, C063401000009 where Ao is obtained from the least-squares fit to C063401000010 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063401000011 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063401000012 ENDBIB 10 0 C063401000013 COMMON 2 3 C063401000014 EN E-LVL C063401000015 MEV MEV C063401000016 6.0 0.0 C063401000017 ENDCOMMON 3 0 C063401000018 DATA 3 5 C063401000019 ANG DATA DATA-ERR C063401000020 ADEG NO-DIM NO-DIM C063401000021 43.319 1.100 0.067 C063401000022 58.736 1.081 0.056 C063401000023 88.855 1.099 0.067 C063401000024 119.100 0.959 0.056 C063401000025 134.526 0.929 0.056 C063401000026 ENDDATA 7 0 C063401000027 ENDSUBENT 26 0 C063401099999 SUBENT C0634011 20160709 C159C063401100001 BIB 5 10 C063401100002 REACTION (5-B-10(P,G)6-C-11,PAR,DA,,RS) C063401100003 STATUS (CURVE) Fig.4, page 135. C063401100004 SAMPLE (5-B-10,ENR=0.965) The target was made by evaporating C063401100005 10B (about 150 microg/cm2) onto a 0.254 mm gold C063401100006 backing. The target was inserted into a glass "T" and C063401100007 the Faraday cup was removed. C063401100008 COMMENT Angular distribution is plotted in units of l/Ao, C063401100009 where Ao is obtained from the least-squares fit to C063401100010 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063401100011 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063401100012 ENDBIB 10 0 C063401100013 COMMON 2 3 C063401100014 EN E-LVL C063401100015 MEV MEV C063401100016 6.5 0.0 C063401100017 ENDCOMMON 3 0 C063401100018 DATA 3 5 C063401100019 ANG DATA DATA-ERR C063401100020 ADEG NO-DIM NO-DIM C063401100021 46.298 0.938 0.055 C063401100022 60.998 1.124 0.045 C063401100023 90.975 1.331 0.067 C063401100024 120.617 0.904 0.056 C063401100025 135.834 0.813 0.056 C063401100026 ENDDATA 7 0 C063401100027 ENDSUBENT 26 0 C063401199999 SUBENT C0634012 20160709 C159C063401200001 BIB 5 10 C063401200002 REACTION (5-B-10(P,G)6-C-11,PAR,DA,,RS) C063401200003 STATUS (CURVE) Fig.4, page 135. C063401200004 SAMPLE (5-B-10,ENR=0.965) The target was made by evaporating C063401200005 10B (about 150 microg/cm2) onto a 0.254 mm gold C063401200006 backing. The target was inserted into a glass "T" and C063401200007 the Faraday cup was removed. C063401200008 COMMENT Angular distribution is plotted in units of l/Ao, C063401200009 where Ao is obtained from the least-squares fit to C063401200010 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063401200011 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063401200012 ENDBIB 10 0 C063401200013 COMMON 2 3 C063401200014 EN E-LVL C063401200015 MEV MEV C063401200016 7.0 0.0 C063401200017 ENDCOMMON 3 0 C063401200018 DATA 3 12 C063401200019 ANG DATA DATA-ERR C063401200020 ADEG NO-DIM NO-DIM C063401200021 1.806 0.692 0.066 C063401200022 7.768 0.737 0.066 C063401200023 15.723 0.770 0.066 C063401200024 30.956 0.892 0.066 C063401200025 44.180 1.080 0.066 C063401200026 59.407 1.224 0.077 C063401200027 74.643 1.335 0.066 C063401200028 82.616 1.303 0.077 C063401200029 89.271 1.237 0.066 C063401200030 104.569 1.117 0.066 C063401200031 119.890 0.910 0.066 C063401200032 135.208 0.713 0.066 C063401200033 ENDDATA 14 0 C063401200034 ENDSUBENT 33 0 C063401299999 SUBENT C0634013 20160709 C159C063401300001 BIB 5 10 C063401300002 REACTION (5-B-10(P,G)6-C-11,PAR,DA,,RS) C063401300003 STATUS (CURVE) Fig.4, page 135. C063401300004 SAMPLE (5-B-10,ENR=0.965) The target was made by evaporating C063401300005 10B (about 150 microg/cm2) onto a 0.254 mm gold C063401300006 backing. The target was inserted into a glass "T" and C063401300007 the Faraday cup was removed. C063401300008 COMMENT Angular distribution is plotted in units of l/Ao, C063401300009 where Ao is obtained from the least-squares fit to C063401300010 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063401300011 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063401300012 ENDBIB 10 0 C063401300013 COMMON 2 3 C063401300014 EN E-LVL C063401300015 MEV MEV C063401300016 7.5 0.0 C063401300017 ENDCOMMON 3 0 C063401300018 DATA 3 5 C063401300019 ANG DATA DATA-ERR C063401300020 ADEG NO-DIM NO-DIM C063401300021 45.133 1.067 0.067 C063401300022 60.398 1.112 0.067 C063401300023 90.265 1.236 0.079 C063401300024 120.133 0.910 0.079 C063401300025 136.062 0.786 0.079 C063401300026 ENDDATA 7 0 C063401300027 ENDSUBENT 26 0 C063401399999 SUBENT C0634014 20160709 C159C063401400001 BIB 5 10 C063401400002 REACTION (5-B-10(P,G)6-C-11,PAR,DA,,RS) C063401400003 STATUS (CURVE) Fig.4, page 135. C063401400004 SAMPLE (5-B-10,ENR=0.965) The target was made by evaporating C063401400005 10B (about 150 microg/cm2) onto a 0.254 mm gold C063401400006 backing. The target was inserted into a glass "T" and C063401400007 the Faraday cup was removed. C063401400008 COMMENT Angular distribution is plotted in units of l/Ao, C063401400009 where Ao is obtained from the least-squares fit to C063401400010 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063401400011 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063401400012 ENDBIB 10 0 C063401400013 COMMON 2 3 C063401400014 EN E-LVL C063401400015 MEV MEV C063401400016 8.0 0.0 C063401400017 ENDCOMMON 3 0 C063401400018 DATA 3 10 C063401400019 ANG DATA DATA-ERR C063401400020 ADEG NO-DIM NO-DIM C063401400021 2.232 0.800 0.078 C063401400022 16.063 1.002 0.067 C063401400023 30.593 1.138 0.067 C063401400024 44.571 1.062 0.078 C063401400025 60.446 1.165 0.078 C063401400026 75.047 1.167 0.067 C063401400027 90.270 1.247 0.056 C063401400028 104.988 1.027 0.067 C063401400029 120.370 0.807 0.067 C063401400030 134.953 0.842 0.055 C063401400031 ENDDATA 12 0 C063401400032 ENDSUBENT 31 0 C063401499999 SUBENT C0634015 20160709 C159C063401500001 BIB 5 9 C063401500002 REACTION (5-B-10(P,G)6-C-11,PAR,DA,,RS) C063401500003 STATUS (CURVE) Fig.4, page 135. C063401500004 SAMPLE (5-B-10,ENR=0.965) Target consisted of three stacked, C063401500005 self-supporting 10B foils made by electron gun C063401500006 evaporation. Each foil was about 100 microg/cm2 thick.C063401500007 COMMENT Angular distribution is plotted in units of l/Ao, C063401500008 where Ao is obtained from the least-squares fit to C063401500009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063401500010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063401500011 ENDBIB 9 0 C063401500012 COMMON 2 3 C063401500013 EN E-LVL C063401500014 MEV MEV C063401500015 8.7 0.0 C063401500016 ENDCOMMON 3 0 C063401500017 DATA 3 10 C063401500018 ANG DATA DATA-ERR C063401500019 ADEG NO-DIM NO-DIM C063401500020 2.146 0.978 0.055 C063401500021 14.839 1.036 0.067 C063401500022 28.912 1.015 0.066 C063401500023 44.295 1.051 0.078 C063401500024 59.659 1.120 0.067 C063401500025 75.048 1.144 0.078 C063401500026 89.755 1.191 0.067 C063401500027 104.564 1.049 0.078 C063401500028 119.390 0.873 0.078 C063401500029 135.514 0.776 0.078 C063401500030 ENDDATA 12 0 C063401500031 ENDSUBENT 30 0 C063401599999 SUBENT C0634016 20160709 C159C063401600001 BIB 5 9 C063401600002 REACTION (5-B-10(P,G)6-C-11,PAR,DA,,RS) C063401600003 STATUS (CURVE) Fig.4, page 135. C063401600004 SAMPLE (5-B-10,ENR=0.965) Target consisted of three stacked, C063401600005 self-supporting 10B foils made by electron gun C063401600006 evaporation. Each foil was about 100 microg/cm2 thick.C063401600007 COMMENT Angular distribution is plotted in units of l/Ao, C063401600008 where Ao is obtained from the least-squares fit to C063401600009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063401600010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063401600011 ENDBIB 9 0 C063401600012 COMMON 2 3 C063401600013 EN E-LVL C063401600014 MEV MEV C063401600015 9.35 0.0 C063401600016 ENDCOMMON 3 0 C063401600017 DATA 3 5 C063401600018 ANG DATA DATA-ERR C063401600019 ADEG NO-DIM NO-DIM C063401600020 43.643 1.029 0.055 C063401600021 58.978 1.153 0.055 C063401600022 89.097 1.180 0.067 C063401600023 120.018 0.962 0.066 C063401600024 135.514 0.787 0.055 C063401600025 ENDDATA 7 0 C063401600026 ENDSUBENT 25 0 C063401699999 SUBENT C0634017 20160709 C159C063401700001 BIB 5 9 C063401700002 REACTION (5-B-10(P,G)6-C-11,PAR,DA,,RS) C063401700003 STATUS (CURVE) Fig.4, page 135. C063401700004 SAMPLE (5-B-10,ENR=0.965) Target consisted of three stacked, C063401700005 self-supporting 10B foils made by electron gun C063401700006 evaporation. Each foil was about 100 microg/cm2 thick.C063401700007 COMMENT Angular distribution is plotted in units of l/Ao, C063401700008 where Ao is obtained from the least-squares fit to C063401700009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063401700010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063401700011 ENDBIB 9 0 C063401700012 COMMON 2 3 C063401700013 EN E-LVL C063401700014 MEV MEV C063401700015 10.0 0.0 C063401700016 ENDCOMMON 3 0 C063401700017 DATA 3 7 C063401700018 ANG DATA DATA-ERR C063401700019 ADEG NO-DIM NO-DIM C063401700020 45.470 1.223 0.077 C063401700021 60.705 1.334 0.077 C063401700022 75.959 1.379 0.077 C063401700023 90.610 1.193 0.077 C063401700024 105.223 1.151 0.077 C063401700025 120.553 0.910 0.066 C063401700026 135.234 0.614 0.066 C063401700027 ENDDATA 9 0 C063401700028 ENDSUBENT 27 0 C063401799999 SUBENT C0634018 20160709 C159C063401800001 BIB 5 9 C063401800002 REACTION (5-B-10(P,G)6-C-11,PAR,DA,,RS) C063401800003 STATUS (CURVE) Fig.4, page 135. C063401800004 SAMPLE (5-B-10,ENR=0.965) Target consisted of three stacked, C063401800005 self-supporting 10B foils made by electron gun C063401800006 evaporation. Each foil was about 100 microg/cm2 thick.C063401800007 COMMENT Angular distribution is plotted in units of l/Ao, C063401800008 where Ao is obtained from the least-squares fit to C063401800009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063401800010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063401800011 ENDBIB 9 0 C063401800012 COMMON 2 3 C063401800013 EN E-LVL C063401800014 MEV MEV C063401800015 11.0 0.0 C063401800016 ENDCOMMON 3 0 C063401800017 DATA 3 4 C063401800018 ANG DATA DATA-ERR C063401800019 ADEG NO-DIM NO-DIM C063401800020 45.502 1.102 0.066 C063401800021 60.752 1.158 0.066 C063401800022 89.923 1.281 0.066 C063401800023 120.550 0.921 0.066 C063401800024 ENDDATA 6 0 C063401800025 ENDSUBENT 24 0 C063401899999 SUBENT C0634019 20160709 C159C063401900001 BIB 5 9 C063401900002 REACTION (5-B-10(P,G)6-C-11,PAR,DA,,RS) C063401900003 STATUS (CURVE) Fig.4, page 135. C063401900004 SAMPLE (5-B-10,ENR=0.965) Target consisted of three stacked, C063401900005 self-supporting 10B foils made by electron gun C063401900006 evaporation. Each foil was about 100 microg/cm2 thick.C063401900007 COMMENT Angular distribution is plotted in units of l/Ao, C063401900008 where Ao is obtained from the least-squares fit to C063401900009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063401900010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063401900011 ENDBIB 9 0 C063401900012 COMMON 2 3 C063401900013 EN E-LVL C063401900014 MEV MEV C063401900015 12.0 0.0 C063401900016 ENDCOMMON 3 0 C063401900017 DATA 3 7 C063401900018 ANG DATA DATA-ERR C063401900019 ADEG NO-DIM NO-DIM C063401900020 45.133 1.156 0.067 C063401900021 59.735 1.244 0.078 C063401900022 75.664 1.378 0.078 C063401900023 90.265 1.333 0.078 C063401900024 104.867 1.133 0.067 C063401900025 120.133 0.911 0.067 C063401900026 135.398 0.522 0.067 C063401900027 ENDDATA 9 0 C063401900028 ENDSUBENT 27 0 C063401999999 SUBENT C0634020 20160709 C159C063402000001 BIB 5 9 C063402000002 REACTION (5-B-10(P,G)6-C-11,PAR,DA,,RS) C063402000003 STATUS (CURVE) Fig.4, page 135. C063402000004 SAMPLE (5-B-10,ENR=0.965) Target consisted of three stacked, C063402000005 self-supporting 10B foils made by electron gun C063402000006 evaporation. Each foil was about 100 microg/cm2 thick.C063402000007 COMMENT Angular distribution is plotted in units of l/Ao, C063402000008 where Ao is obtained from the least-squares fit to C063402000009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063402000010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063402000011 ENDBIB 9 0 C063402000012 COMMON 2 3 C063402000013 EN E-LVL C063402000014 MEV MEV C063402000015 14.0 0.0 C063402000016 ENDCOMMON 3 0 C063402000017 DATA 3 7 C063402000018 ANG DATA DATA-ERR C063402000019 ADEG NO-DIM NO-DIM C063402000020 44.821 1.181 0.089 C063402000021 60.042 1.349 0.100 C063402000022 75.292 1.406 0.111 C063402000023 89.926 1.284 0.100 C063402000024 105.194 1.274 0.089 C063402000025 120.562 0.887 0.089 C063402000026 135.924 0.521 0.078 C063402000027 ENDDATA 9 0 C063402000028 ENDSUBENT 27 0 C063402099999 SUBENT C0634021 20160709 C159C063402100001 BIB 5 9 C063402100002 REACTION (7-N-14(P,G)8-O-15,PAR,DA,,RS) C063402100003 STATUS (CURVE) Fig.8, page 138. C063402100004 SAMPLE The 14N gas was contained in a transmission cell C063402100005 mounted in a 20 cm scattering chamber with an 0.16 cm C063402100006 stainless steel wall. C063402100007 COMMENT Angular distribution is plotted in units of l/Ao, C063402100008 where Ao is obtained from the least-squares fit to C063402100009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063402100010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063402100011 ENDBIB 9 0 C063402100012 COMMON 2 3 C063402100013 EN E-LVL C063402100014 MEV MEV C063402100015 2.19 0.0 C063402100016 ENDCOMMON 3 0 C063402100017 DATA 3 3 C063402100018 ANG DATA DATA-ERR C063402100019 ADEG NO-DIM NO-DIM C063402100020 46.084 1.031 0.077 C063402100021 89.458 1.077 0.077 C063402100022 135.542 0.831 0.077 C063402100023 ENDDATA 5 0 C063402100024 ENDSUBENT 23 0 C063402199999 SUBENT C0634022 20160709 C159C063402200001 BIB 5 9 C063402200002 REACTION (7-N-14(P,G)8-O-15,PAR,DA,,RS) C063402200003 STATUS (CURVE) Fig.8, page 138. C063402200004 SAMPLE The 14N gas was contained in a transmission cell C063402200005 mounted in a 20 cm scattering chamber with an 0.16 cm C063402200006 stainless steel wall. C063402200007 COMMENT Angular distribution is plotted in units of l/Ao, C063402200008 where Ao is obtained from the least-squares fit to C063402200009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063402200010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063402200011 ENDBIB 9 0 C063402200012 COMMON 2 3 C063402200013 EN E-LVL C063402200014 MEV MEV C063402200015 2.27 0.0 C063402200016 ENDCOMMON 3 0 C063402200017 DATA 3 3 C063402200018 ANG DATA DATA-ERR C063402200019 ADEG NO-DIM NO-DIM C063402200020 45.402 1.098 0.077 C063402200021 91.771 1.012 0.077 C063402200022 134.494 0.819 0.077 C063402200023 ENDDATA 5 0 C063402200024 ENDSUBENT 23 0 C063402299999 SUBENT C0634023 20160709 C159C063402300001 BIB 5 9 C063402300002 REACTION (7-N-14(P,G)8-O-15,PAR,DA,,RS) C063402300003 STATUS (CURVE) Fig.8, page 138. C063402300004 SAMPLE The 14N gas was contained in a transmission cell C063402300005 mounted in a 20 cm scattering chamber with an 0.16 cm C063402300006 stainless steel wall. C063402300007 COMMENT Angular distribution is plotted in units of l/Ao, C063402300008 where Ao is obtained from the least-squares fit to C063402300009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063402300010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063402300011 ENDBIB 9 0 C063402300012 COMMON 2 3 C063402300013 EN E-LVL C063402300014 MEV MEV C063402300015 2.30 0.0 C063402300016 ENDCOMMON 3 0 C063402300017 DATA 3 5 C063402300018 ANG DATA DATA-ERR C063402300019 ADEG NO-DIM NO-DIM C063402300020 45.808 1.176 0.074 C063402300021 60.180 1.132 0.059 C063402300022 89.820 1.029 0.074 C063402300023 119.461 0.853 0.059 C063402300024 134.731 0.750 0.074 C063402300025 ENDDATA 7 0 C063402300026 ENDSUBENT 25 0 C063402399999 SUBENT C0634024 20160709 C159C063402400001 BIB 5 9 C063402400002 REACTION (7-N-14(P,G)8-O-15,PAR,DA,,RS) C063402400003 STATUS (CURVE) Fig.8, page 138. C063402400004 SAMPLE The 14N gas was contained in a transmission cell C063402400005 mounted in a 20 cm scattering chamber with an 0.16 cm C063402400006 stainless steel wall. C063402400007 COMMENT Angular distribution is plotted in units of l/Ao, C063402400008 where Ao is obtained from the least-squares fit to C063402400009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063402400010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063402400011 ENDBIB 9 0 C063402400012 COMMON 2 3 C063402400013 EN E-LVL C063402400014 MEV MEV C063402400015 2.35 0.0 C063402400016 ENDCOMMON 3 0 C063402400017 DATA 3 5 C063402400018 ANG DATA DATA-ERR C063402400019 ADEG NO-DIM NO-DIM C063402400020 38.434 1.142 0.060 C063402400021 51.005 1.035 0.060 C063402400022 75.470 0.955 0.075 C063402400023 99.892 0.786 0.060 C063402400024 111.765 0.769 0.060 C063402400025 ENDDATA 7 0 C063402400026 ENDSUBENT 25 0 C063402499999 SUBENT C0634025 20160709 C159C063402500001 BIB 5 9 C063402500002 REACTION (7-N-14(P,G)8-O-15,PAR,DA,,RS) C063402500003 STATUS (CURVE) Fig.8, page 138. C063402500004 SAMPLE The 14N gas was contained in a transmission cell C063402500005 mounted in a 20 cm scattering chamber with an 0.16 cm C063402500006 stainless steel wall. C063402500007 COMMENT Angular distribution is plotted in units of l/Ao, C063402500008 where Ao is obtained from the least-squares fit to C063402500009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063402500010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063402500011 ENDBIB 9 0 C063402500012 COMMON 2 3 C063402500013 EN E-LVL C063402500014 MEV MEV C063402500015 2.40 0.0 C063402500016 ENDCOMMON 3 0 C063402500017 DATA 3 5 C063402500018 ANG DATA DATA-ERR C063402500019 ADEG NO-DIM NO-DIM C063402500020 45.337 1.024 0.076 C063402500021 59.782 1.043 0.076 C063402500022 89.641 0.988 0.061 C063402500023 120.381 0.964 0.061 C063402500024 134.826 0.982 0.061 C063402500025 ENDDATA 7 0 C063402500026 ENDSUBENT 25 0 C063402599999 SUBENT C0634026 20160709 C159C063402600001 BIB 5 9 C063402600002 REACTION (7-N-14(P,G)8-O-15,PAR,DA,,RS) C063402600003 STATUS (CURVE) Fig.8, page 138. C063402600004 SAMPLE The 14N gas was contained in a transmission cell C063402600005 mounted in a 20 cm scattering chamber with an 0.16 cm C063402600006 stainless steel wall. C063402600007 COMMENT Angular distribution is plotted in units of l/Ao, C063402600008 where Ao is obtained from the least-squares fit to C063402600009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063402600010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063402600011 ENDBIB 9 0 C063402600012 COMMON 2 3 C063402600013 EN E-LVL C063402600014 MEV MEV C063402600015 2.43 0.0 C063402600016 ENDCOMMON 3 0 C063402600017 DATA 3 5 C063402600018 ANG DATA DATA-ERR C063402600019 ADEG NO-DIM NO-DIM C063402600020 45.181 1.254 0.075 C063402600021 60.542 1.209 0.060 C063402600022 89.458 1.045 0.060 C063402600023 120.181 0.731 0.060 C063402600024 134.639 0.731 0.060 C063402600025 ENDDATA 7 0 C063402600026 ENDSUBENT 25 0 C063402699999 SUBENT C0634027 20160709 C159C063402700001 BIB 5 9 C063402700002 REACTION (7-N-14(P,G)8-O-15,PAR,DA,,RS) C063402700003 STATUS (CURVE) Fig.8, page 138. C063402700004 SAMPLE The 14N gas was contained in a transmission cell C063402700005 mounted in a 20 cm scattering chamber with an 0.16 cm C063402700006 stainless steel wall. C063402700007 COMMENT Angular distribution is plotted in units of l/Ao, C063402700008 where Ao is obtained from the least-squares fit to C063402700009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063402700010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063402700011 ENDBIB 9 0 C063402700012 COMMON 2 3 C063402700013 EN E-LVL C063402700014 MEV MEV C063402700015 2.48 0.0 C063402700016 ENDCOMMON 3 0 C063402700017 DATA 3 5 C063402700018 ANG DATA DATA-ERR C063402700019 ADEG NO-DIM NO-DIM C063402700020 44.012 1.463 0.060 C063402700021 60.180 1.119 0.090 C063402700022 89.820 0.731 0.075 C063402700023 119.461 0.642 0.060 C063402700024 134.731 0.776 0.060 C063402700025 ENDDATA 7 0 C063402700026 ENDSUBENT 25 0 C063402799999 SUBENT C0634028 20160709 C159C063402800001 BIB 5 9 C063402800002 REACTION (7-N-14(P,G)8-O-15,PAR,DA,,RS) C063402800003 STATUS (CURVE) Fig.8, page 138. C063402800004 SAMPLE The 14N gas was contained in a transmission cell C063402800005 mounted in a 20 cm scattering chamber with an 0.16 cm C063402800006 stainless steel wall. C063402800007 COMMENT Angular distribution is plotted in units of l/Ao, C063402800008 where Ao is obtained from the least-squares fit to C063402800009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063402800010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063402800011 ENDBIB 9 0 C063402800012 COMMON 2 3 C063402800013 EN E-LVL C063402800014 MEV MEV C063402800015 2.55 0.0 C063402800016 ENDCOMMON 3 0 C063402800017 DATA 3 5 C063402800018 ANG DATA DATA-ERR C063402800019 ADEG NO-DIM NO-DIM C063402800020 42.988 0.757 0.076 C063402800021 57.622 0.864 0.091 C063402800022 88.720 1.030 0.091 C063402800023 118.902 1.121 0.091 C063402800024 133.537 1.106 0.091 C063402800025 ENDDATA 7 0 C063402800026 ENDSUBENT 25 0 C063402899999 SUBENT C0634029 20160709 C159C063402900001 BIB 5 9 C063402900002 REACTION (7-N-14(P,G)8-O-15,PAR,DA,,RS) C063402900003 STATUS (CURVE) Fig.8, page 138. C063402900004 SAMPLE The 14N gas was contained in a transmission cell C063402900005 mounted in a 20 cm scattering chamber with an 0.16 cm C063402900006 stainless steel wall. C063402900007 COMMENT Angular distribution is plotted in units of l/Ao, C063402900008 where Ao is obtained from the least-squares fit to C063402900009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063402900010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063402900011 ENDBIB 9 0 C063402900012 COMMON 2 3 C063402900013 EN E-LVL C063402900014 MEV MEV C063402900015 4.20 0.0 C063402900016 ENDCOMMON 3 0 C063402900017 DATA 3 5 C063402900018 ANG DATA DATA-ERR C063402900019 ADEG NO-DIM NO-DIM C063402900020 42.988 0.985 0.076 C063402900021 57.622 1.030 0.076 C063402900022 88.720 1.106 0.076 C063402900023 118.902 0.985 0.076 C063402900024 134.451 0.909 0.061 C063402900025 ENDDATA 7 0 C063402900026 ENDSUBENT 25 0 C063402999999 SUBENT C0634030 20160709 C159C063403000001 BIB 5 9 C063403000002 REACTION (7-N-14(P,G)8-O-15,PAR,DA,,RS) C063403000003 STATUS (CURVE) Fig.8, page 138. C063403000004 SAMPLE The 14N gas was contained in a transmission cell C063403000005 mounted in a 20 cm scattering chamber with an 0.16 cm C063403000006 stainless steel wall. C063403000007 COMMENT Angular distribution is plotted in units of l/Ao, C063403000008 where Ao is obtained from the least-squares fit to C063403000009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063403000010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063403000011 ENDBIB 9 0 C063403000012 COMMON 2 3 C063403000013 EN E-LVL C063403000014 MEV MEV C063403000015 4.35 0.0 C063403000016 ENDCOMMON 3 0 C063403000017 DATA 3 5 C063403000018 ANG DATA DATA-ERR C063403000019 ADEG NO-DIM NO-DIM C063403000020 44.087 1.223 0.076 C063403000021 59.480 1.054 0.091 C063403000022 89.418 0.885 0.076 C063403000023 119.417 0.882 0.076 C063403000024 134.844 0.804 0.076 C063403000025 ENDDATA 7 0 C063403000026 ENDSUBENT 25 0 C063403099999 SUBENT C0634031 20160709 C159C063403100001 BIB 5 9 C063403100002 REACTION (7-N-14(P,G)8-O-15,PAR,DA,,RS) C063403100003 STATUS (CURVE) Fig.8, page 138. C063403100004 SAMPLE The 14N gas was contained in a transmission cell C063403100005 mounted in a 20 cm scattering chamber with an 0.16 cm C063403100006 stainless steel wall. C063403100007 COMMENT Angular distribution is plotted in units of l/Ao, C063403100008 where Ao is obtained from the least-squares fit to C063403100009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063403100010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063403100011 ENDBIB 9 0 C063403100012 COMMON 2 3 C063403100013 EN E-LVL C063403100014 MEV MEV C063403100015 5.40 0.0 C063403100016 ENDCOMMON 3 0 C063403100017 DATA 3 5 C063403100018 ANG DATA DATA-ERR C063403100019 ADEG NO-DIM NO-DIM C063403100020 44.732 1.112 0.061 C063403100021 60.279 1.109 0.076 C063403100022 90.379 0.997 0.061 C063403100023 119.599 0.930 0.076 C063403100024 135.067 0.821 0.076 C063403100025 ENDDATA 7 0 C063403100026 ENDSUBENT 25 0 C063403199999 SUBENT C0634032 20160709 C159C063403200001 BIB 5 9 C063403200002 REACTION (7-N-14(P,G)8-O-15,PAR,DA,,RS) C063403200003 STATUS (CURVE) Fig.8, page 138. C063403200004 SAMPLE The 14N gas was contained in a transmission cell C063403200005 mounted in a 20 cm scattering chamber with an 0.16 cm C063403200006 stainless steel wall. C063403200007 COMMENT Angular distribution is plotted in units of l/Ao, C063403200008 where Ao is obtained from the least-squares fit to C063403200009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063403200010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063403200011 ENDBIB 9 0 C063403200012 COMMON 2 3 C063403200013 EN E-LVL C063403200014 MEV MEV C063403200015 5.85 0.0 C063403200016 ENDCOMMON 3 0 C063403200017 DATA 3 5 C063403200018 ANG DATA DATA-ERR C063403200019 ADEG NO-DIM NO-DIM C063403200020 43.884 1.078 0.074 C063403200021 59.244 1.079 0.074 C063403200022 89.041 1.141 0.059 C063403200023 118.037 0.923 0.088 C063403200024 133.447 0.793 0.074 C063403200025 ENDDATA 7 0 C063403200026 ENDSUBENT 25 0 C063403299999 SUBENT C0634033 20160709 C159C063403300001 BIB 5 9 C063403300002 REACTION (7-N-14(P,G)8-O-15,PAR,DA,,RS) C063403300003 STATUS (CURVE) Fig.8, page 138. C063403300004 SAMPLE The 14N gas was contained in a transmission cell C063403300005 mounted in a 20 cm scattering chamber with an 0.16 cm C063403300006 stainless steel wall. C063403300007 COMMENT Angular distribution is plotted in units of l/Ao, C063403300008 where Ao is obtained from the least-squares fit to C063403300009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063403300010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063403300011 ENDBIB 9 0 C063403300012 COMMON 2 3 C063403300013 EN E-LVL C063403300014 MEV MEV C063403300015 6.16 0.0 C063403300016 ENDCOMMON 3 0 C063403300017 DATA 3 5 C063403300018 ANG DATA DATA-ERR C063403300019 ADEG NO-DIM NO-DIM C063403300020 44.545 1.016 0.078 C063403300021 59.091 0.984 0.078 C063403300022 89.091 1.156 0.078 C063403300023 120.000 1.016 0.062 C063403300024 133.636 0.828 0.078 C063403300025 ENDDATA 7 0 C063403300026 ENDSUBENT 25 0 C063403399999 SUBENT C0634034 20160709 C159C063403400001 BIB 5 9 C063403400002 REACTION (7-N-14(P,G)8-O-15,PAR,DA,,RS) C063403400003 STATUS (CURVE) Fig.8, page 138. C063403400004 SAMPLE The 14N gas was contained in a transmission cell C063403400005 mounted in a 20 cm scattering chamber with an 0.16 cm C063403400006 stainless steel wall. C063403400007 COMMENT Angular distribution is plotted in units of l/Ao, C063403400008 where Ao is obtained from the least-squares fit to C063403400009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063403400010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063403400011 ENDBIB 9 0 C063403400012 COMMON 2 3 C063403400013 EN E-LVL C063403400014 MEV MEV C063403400015 6.40 0.0 C063403400016 ENDCOMMON 3 0 C063403400017 DATA 3 7 C063403400018 ANG DATA DATA-ERR C063403400019 ADEG NO-DIM NO-DIM C063403400020 39.546 0.947 0.075 C063403400021 61.284 1.018 0.060 C063403400022 75.838 1.149 0.060 C063403400023 91.230 1.191 0.060 C063403400024 106.513 1.083 0.060 C063403400025 120.849 0.916 0.060 C063403400026 135.196 0.764 0.075 C063403400027 ENDDATA 9 0 C063403400028 ENDSUBENT 27 0 C063403499999 SUBENT C0634035 20160709 C159C063403500001 BIB 5 9 C063403500002 REACTION (7-N-14(P,G)8-O-15,PAR,DA,,RS) C063403500003 STATUS (CURVE) Fig.8, page 138. C063403500004 SAMPLE The 14N gas was contained in a transmission cell C063403500005 mounted in a 20 cm scattering chamber with an 0.16 cm C063403500006 stainless steel wall. C063403500007 COMMENT Angular distribution is plotted in units of l/Ao, C063403500008 where Ao is obtained from the least-squares fit to C063403500009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063403500010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063403500011 ENDBIB 9 0 C063403500012 COMMON 2 3 C063403500013 EN E-LVL C063403500014 MEV MEV C063403500015 6.56 0.0 C063403500016 ENDCOMMON 3 0 C063403500017 DATA 3 4 C063403500018 ANG DATA DATA-ERR C063403500019 ADEG NO-DIM NO-DIM C063403500020 45.181 1.000 0.075 C063403500021 90.361 1.179 0.060 C063403500022 119.277 0.925 0.075 C063403500023 134.639 0.746 0.075 C063403500024 ENDDATA 6 0 C063403500025 ENDSUBENT 24 0 C063403599999 SUBENT C0634036 20160709 C159C063403600001 BIB 5 9 C063403600002 REACTION (7-N-14(P,G)8-O-15,PAR,DA,,RS) C063403600003 STATUS (CURVE) Fig.8, page 138. C063403600004 SAMPLE The 14N gas was contained in a transmission cell C063403600005 mounted in a 20 cm scattering chamber with an 0.16 cm C063403600006 stainless steel wall. C063403600007 COMMENT Angular distribution is plotted in units of l/Ao, C063403600008 where Ao is obtained from the least-squares fit to C063403600009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063403600010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063403600011 ENDBIB 9 0 C063403600012 COMMON 2 3 C063403600013 EN E-LVL C063403600014 MEV MEV C063403600015 7.68 0.0 C063403600016 ENDCOMMON 3 0 C063403600017 DATA 3 7 C063403600018 ANG DATA DATA-ERR C063403600019 ADEG NO-DIM NO-DIM C063403600020 38.182 1.000 0.077 C063403600021 59.091 1.338 0.062 C063403600022 74.545 1.431 0.062 C063403600023 90.000 1.431 0.046 C063403600024 104.545 1.169 0.077 C063403600025 119.091 0.738 0.092 C063403600026 134.545 0.554 0.077 C063403600027 ENDDATA 9 0 C063403600028 ENDSUBENT 27 0 C063403699999 SUBENT C0634037 20160709 C159C063403700001 BIB 5 9 C063403700002 REACTION (7-N-14(P,G)8-O-15,PAR,DA,,RS) C063403700003 STATUS (CURVE) Fig.8, page 138. C063403700004 SAMPLE The 14N gas was contained in a transmission cell C063403700005 mounted in a 20 cm scattering chamber with an 0.16 cm C063403700006 stainless steel wall. C063403700007 COMMENT Angular distribution is plotted in units of l/Ao, C063403700008 where Ao is obtained from the least-squares fit to C063403700009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063403700010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063403700011 ENDBIB 9 0 C063403700012 COMMON 2 3 C063403700013 EN E-LVL C063403700014 MEV MEV C063403700015 8.36 0.0 C063403700016 ENDCOMMON 3 0 C063403700017 DATA 3 8 C063403700018 ANG DATA DATA-ERR C063403700019 ADEG NO-DIM NO-DIM C063403700020 37.961 0.918 0.075 C063403700021 46.175 0.961 0.074 C063403700022 59.964 1.167 0.075 C063403700023 75.471 1.239 0.075 C063403700024 90.058 1.295 0.075 C063403700025 105.467 1.233 0.075 C063403700026 119.812 0.961 0.075 C063403700027 134.102 0.615 0.060 C063403700028 ENDDATA 10 0 C063403700029 ENDSUBENT 28 0 C063403799999 SUBENT C0634038 20160709 C159C063403800001 BIB 5 9 C063403800002 REACTION (7-N-14(P,G)8-O-15,PAR,DA,,RS) C063403800003 STATUS (CURVE) Fig.8, page 138. C063403800004 SAMPLE The 14N gas was contained in a transmission cell C063403800005 mounted in a 20 cm scattering chamber with an 0.16 cm C063403800006 stainless steel wall. C063403800007 COMMENT Angular distribution is plotted in units of l/Ao, C063403800008 where Ao is obtained from the least-squares fit to C063403800009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063403800010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063403800011 ENDBIB 9 0 C063403800012 COMMON 2 3 C063403800013 EN E-LVL C063403800014 MEV MEV C063403800015 9.55 0.0 C063403800016 ENDCOMMON 3 0 C063403800017 DATA 3 5 C063403800018 ANG DATA DATA-ERR C063403800019 ADEG NO-DIM NO-DIM C063403800020 37.097 1.095 0.061 C063403800021 58.088 1.218 0.060 C063403800022 90.055 1.342 0.091 C063403800023 119.489 0.891 0.091 C063403800024 135.154 0.574 0.076 C063403800025 ENDDATA 7 0 C063403800026 ENDSUBENT 25 0 C063403899999 SUBENT C0634039 20160709 C159C063403900001 BIB 5 9 C063403900002 REACTION (7-N-14(P,G)8-O-15,PAR,DA,,RS) C063403900003 STATUS (CURVE) Fig.8, page 138. C063403900004 SAMPLE The 14N gas was contained in a transmission cell C063403900005 mounted in a 20 cm scattering chamber with an 0.16 cm C063403900006 stainless steel wall. C063403900007 COMMENT Angular distribution is plotted in units of l/Ao, C063403900008 where Ao is obtained from the least-squares fit to C063403900009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063403900010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063403900011 ENDBIB 9 0 C063403900012 COMMON 2 3 C063403900013 EN E-LVL C063403900014 MEV MEV C063403900015 10.26 0.0 C063403900016 ENDCOMMON 3 0 C063403900017 DATA 3 5 C063403900018 ANG DATA DATA-ERR C063403900019 ADEG NO-DIM NO-DIM C063403900020 29.091 0.761 0.075 C063403900021 60.000 1.179 0.060 C063403900022 89.091 1.343 0.075 C063403900023 119.091 1.030 0.060 C063403900024 134.545 0.522 0.060 C063403900025 ENDDATA 7 0 C063403900026 ENDSUBENT 25 0 C063403999999 SUBENT C0634040 20160709 C159C063404000001 BIB 5 9 C063404000002 REACTION (7-N-14(P,G)8-O-15,PAR,DA,,RS) C063404000003 STATUS (CURVE) Fig.8, page 138. C063404000004 SAMPLE The 14N gas was contained in a transmission cell C063404000005 mounted in a 20 cm scattering chamber with an 0.16 cm C063404000006 stainless steel wall. C063404000007 COMMENT Angular distribution is plotted in units of l/Ao, C063404000008 where Ao is obtained from the least-squares fit to C063404000009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063404000010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063404000011 ENDBIB 9 0 C063404000012 COMMON 2 3 C063404000013 EN E-LVL C063404000014 MEV MEV C063404000015 11.27 0.0 C063404000016 ENDCOMMON 3 0 C063404000017 DATA 3 5 C063404000018 ANG DATA DATA-ERR C063404000019 ADEG NO-DIM NO-DIM C063404000020 36.853 1.138 0.090 C063404000021 58.642 1.215 0.089 C063404000022 88.652 1.188 0.090 C063404000023 118.789 0.818 0.090 C063404000024 134.309 0.640 0.075 C063404000025 ENDDATA 7 0 C063404000026 ENDSUBENT 25 0 C063404099999 SUBENT C0634041 20160709 C159C063404100001 BIB 5 9 C063404100002 REACTION (7-N-14(P,G)8-O-15,PAR,DA,,RS) C063404100003 STATUS (CURVE) Fig.8, page 138. C063404100004 SAMPLE The 14N gas was contained in a transmission cell C063404100005 mounted in a 20 cm scattering chamber with an 0.16 cm C063404100006 stainless steel wall. C063404100007 COMMENT Angular distribution is plotted in units of l/Ao, C063404100008 where Ao is obtained from the least-squares fit to C063404100009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063404100010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063404100011 ENDBIB 9 0 C063404100012 COMMON 2 3 C063404100013 EN E-LVL C063404100014 MEV MEV C063404100015 11.88 0.0 C063404100016 ENDCOMMON 3 0 C063404100017 DATA 3 5 C063404100018 ANG DATA DATA-ERR C063404100019 ADEG NO-DIM NO-DIM C063404100020 27.088 0.915 0.076 C063404100021 56.473 1.239 0.061 C063404100022 86.967 1.321 0.061 C063404100023 118.729 0.948 0.091 C063404100024 133.827 0.573 0.076 C063404100025 ENDDATA 7 0 C063404100026 ENDSUBENT 25 0 C063404199999 SUBENT C0634042 20160709 C159C063404200001 BIB 5 9 C063404200002 REACTION (7-N-14(P,G)8-O-15,PAR,DA,,RS) C063404200003 STATUS (CURVE) Fig.8, page 138. C063404200004 SAMPLE The 14N gas was contained in a transmission cell C063404200005 mounted in a 20 cm scattering chamber with an 0.16 cm C063404200006 stainless steel wall. C063404200007 COMMENT Angular distribution is plotted in units of l/Ao, C063404200008 where Ao is obtained from the least-squares fit to C063404200009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063404200010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063404200011 ENDBIB 9 0 C063404200012 COMMON 2 3 C063404200013 EN E-LVL C063404200014 MEV MEV C063404200015 12.18 0.0 C063404200016 ENDCOMMON 3 0 C063404200017 DATA 3 5 C063404200018 ANG DATA DATA-ERR C063404200019 ADEG NO-DIM NO-DIM C063404200020 38.781 0.981 0.076 C063404200021 58.986 1.206 0.076 C063404200022 90.088 1.218 0.076 C063404200023 120.158 0.912 0.076 C063404200024 133.766 0.608 0.061 C063404200025 ENDDATA 7 0 C063404200026 ENDSUBENT 25 0 C063404299999 SUBENT C0634043 20160709 C159C063404300001 BIB 5 9 C063404300002 REACTION (7-N-14(P,G)8-O-15,PAR,DA,,RS) C063404300003 STATUS (CURVE) Fig.8, page 138. C063404300004 SAMPLE The 14N gas was contained in a transmission cell C063404300005 mounted in a 20 cm scattering chamber with an 0.16 cm C063404300006 stainless steel wall. C063404300007 COMMENT Angular distribution is plotted in units of l/Ao, C063404300008 where Ao is obtained from the least-squares fit to C063404300009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063404300010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063404300011 ENDBIB 9 0 C063404300012 COMMON 2 3 C063404300013 EN E-LVL C063404300014 MEV MEV C063404300015 12.89 0.0 C063404300016 ENDCOMMON 3 0 C063404300017 DATA 3 5 C063404300018 ANG DATA DATA-ERR C063404300019 ADEG NO-DIM NO-DIM C063404300020 29.268 1.045 0.076 C063404300021 59.451 1.182 0.076 C063404300022 88.720 1.242 0.076 C063404300023 118.902 0.909 0.061 C063404300024 133.537 0.561 0.061 C063404300025 ENDDATA 7 0 C063404300026 ENDSUBENT 25 0 C063404399999 SUBENT C0634044 20160709 C159C063404400001 BIB 5 9 C063404400002 REACTION (7-N-14(P,G)8-O-15,PAR,DA,,RS) C063404400003 STATUS (CURVE) Fig.8, page 138. C063404400004 SAMPLE The 14N gas was contained in a transmission cell C063404400005 mounted in a 20 cm scattering chamber with an 0.16 cm C063404400006 stainless steel wall. C063404400007 COMMENT Angular distribution is plotted in units of l/Ao, C063404400008 where Ao is obtained from the least-squares fit to C063404400009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063404400010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063404400011 ENDBIB 9 0 C063404400012 COMMON 2 3 C063404400013 EN E-LVL C063404400014 MEV MEV C063404400015 13.49 0.0 C063404400016 ENDCOMMON 3 0 C063404400017 DATA 3 5 C063404400018 ANG DATA DATA-ERR C063404400019 ADEG NO-DIM NO-DIM C063404400020 39.329 1.000 0.059 C063404400021 60.366 1.309 0.074 C063404400022 89.634 1.397 0.074 C063404400023 120.732 0.765 0.059 C063404400024 135.366 0.544 0.059 C063404400025 ENDDATA 7 0 C063404400026 ENDSUBENT 25 0 C063404499999 SUBENT C0634045 20160709 C159C063404500001 BIB 5 9 C063404500002 REACTION (7-N-14(P,G)8-O-15,PAR,DA,,RS) C063404500003 STATUS (CURVE) Fig.8, page 138. C063404500004 SAMPLE The 14N gas was contained in a transmission cell C063404500005 mounted in a 20 cm scattering chamber with an 0.16 cm C063404500006 stainless steel wall. C063404500007 COMMENT Angular distribution is plotted in units of l/Ao, C063404500008 where Ao is obtained from the least-squares fit to C063404500009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063404500010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063404500011 ENDBIB 9 0 C063404500012 COMMON 2 3 C063404500013 EN E-LVL C063404500014 MEV MEV C063404500015 14.30 0.0 C063404500016 ENDCOMMON 3 0 C063404500017 DATA 3 5 C063404500018 ANG DATA DATA-ERR C063404500019 ADEG NO-DIM NO-DIM C063404500020 29.602 1.094 0.076 C063404500021 59.541 1.264 0.060 C063404500022 89.572 1.176 0.060 C063404500023 119.665 0.921 0.076 C063404500024 135.224 0.635 0.076 C063404500025 ENDDATA 7 0 C063404500026 ENDSUBENT 25 0 C063404599999 SUBENT C0634046 20160709 C159C063404600001 BIB 5 9 C063404600002 REACTION (7-N-14(P,G)8-O-15,PAR,DA,,RS) C063404600003 STATUS (CURVE) Fig.8, page 138. C063404600004 SAMPLE The 14N gas was contained in a transmission cell C063404600005 mounted in a 20 cm scattering chamber with an 0.16 cm C063404600006 stainless steel wall. C063404600007 COMMENT Angular distribution is plotted in units of l/Ao, C063404600008 where Ao is obtained from the least-squares fit to C063404600009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063404600010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063404600011 ENDBIB 9 0 C063404600012 COMMON 2 3 C063404600013 EN E-LVL C063404600014 MEV MEV C063404600015 15.91 0.0 C063404600016 ENDCOMMON 3 0 C063404600017 DATA 3 5 C063404600018 ANG DATA DATA-ERR C063404600019 ADEG NO-DIM NO-DIM C063404600020 30.145 0.893 0.075 C063404600021 60.121 1.322 0.075 C063404600022 89.939 1.319 0.075 C063404600023 119.594 0.869 0.075 C063404600024 134.819 0.494 0.090 C063404600025 ENDDATA 7 0 C063404600026 ENDSUBENT 25 0 C063404699999 SUBENT C0634047 20160709 C159C063404700001 BIB 5 9 C063404700002 REACTION (7-N-14(P,G)8-O-15,PAR,DA,,RS) C063404700003 STATUS (CURVE) Fig.8, page 138. C063404700004 SAMPLE The 14N gas was contained in a transmission cell C063404700005 mounted in a 20 cm scattering chamber with an 0.16 cm C063404700006 stainless steel wall. C063404700007 COMMENT Angular distribution is plotted in units of l/Ao, C063404700008 where Ao is obtained from the least-squares fit to C063404700009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063404700010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063404700011 ENDBIB 9 0 C063404700012 COMMON 2 3 C063404700013 EN E-LVL C063404700014 MEV MEV C063404700015 16.92 0.0 C063404700016 ENDCOMMON 3 0 C063404700017 DATA 3 7 C063404700018 ANG DATA DATA-ERR C063404700019 ADEG NO-DIM NO-DIM C063404700020 38.468 1.096 0.062 C063404700021 60.061 1.360 0.062 C063404700022 73.598 1.408 0.061 C063404700023 88.981 1.348 0.062 C063404700024 104.462 1.011 0.062 C063404700025 119.012 0.751 0.077 C063404700026 134.427 0.598 0.077 C063404700027 ENDDATA 9 0 C063404700028 ENDSUBENT 27 0 C063404799999 SUBENT C0634048 20160709 C159C063404800001 BIB 5 9 C063404800002 REACTION (7-N-14(P,G)8-O-15,PAR,DA,,RS) C063404800003 STATUS (CURVE) Fig.8, page 138. C063404800004 SAMPLE The 14N gas was contained in a transmission cell C063404800005 mounted in a 20 cm scattering chamber with an 0.16 cm C063404800006 stainless steel wall. C063404800007 COMMENT Angular distribution is plotted in units of l/Ao, C063404800008 where Ao is obtained from the least-squares fit to C063404800009 W(theta) = Ao[1 + Sum (an x Pn(cos theta))], n>0. C063404800010 HISTORY (20160705A) SF8 changed to RS, units to NO-DIM C063404800011 ENDBIB 9 0 C063404800012 COMMON 2 3 C063404800013 EN E-LVL C063404800014 MEV MEV C063404800015 17.93 0.0 C063404800016 ENDCOMMON 3 0 C063404800017 DATA 3 7 C063404800018 ANG DATA DATA-ERR C063404800019 ADEG NO-DIM NO-DIM C063404800020 39.521 1.119 0.075 C063404800021 60.180 1.328 0.075 C063404800022 74.551 1.373 0.090 C063404800023 89.820 1.194 0.075 C063404800024 103.293 0.985 0.075 C063404800025 118.563 0.731 0.075 C063404800026 133.832 0.597 0.060 C063404800027 ENDDATA 9 0 C063404800028 ENDSUBENT 27 0 C063404899999 ENDENTRY 48 0 C063499999999