ENTRY A0714 20050112 A061A071400000001 SUBENT A0714001 20050112 A061A071400100001 BIB 11 48 A071400100002 TITLE Reactions induced by 18 MeV 6-He beam on 6-Li, 7-Li andA071400100003 12-C. A071400100004 REFERENCE (J,NP/A,746,183,2004) A071400100005 (J,EUL,48,616,1999) Preliminary results A071400100006 AUTHOR (M.Milin, S.Cherubini, T.Davinson, A.Di-Pietro, A071400100007 P.Figuera, D.Miljanic, A.Musumarra, A.Ninane, A071400100008 A.N.Ostrowski, M.G.Pellegriti, A.C.Shotter, N.Soic, A071400100009 C.Spitaleri, M.Zadro) A071400100010 INSTITUTE (3CRORBZ) Ruder Boskovic Institute. A071400100011 (2BLGLEU) Institut de Physique Nucleaire. A071400100012 (2UK EDG) Department of Physics and Astronomy. A071400100013 (2ITYLNS) A071400100014 FACILITY (ACCEL,2BLGLEU) The radioactive beam facility. A071400100015 METHOD (EXTB) The 18 MeV 6He+ beam. The average beam A071400100016 intensity was ~5e+6 particles per second. The only A071400100017 beam impurity detected were the He-H2+ ions; the A071400100018 events produced by this exotic impurity were easily A071400100019 recognized and removed in an off-line analysis. A071400100020 (BCINT) A Faraday cup. A071400100021 (TOF) Information on the mass of detected particles wasA071400100022 obtained by the time-of-flight method combined with A071400100023 mass calculation from kinematics of the coincidence A071400100024 events. A071400100025 (EDE) One of the six LAMP1 sectors was covered with a A071400100026 mylar foil (9.5 mum thick) and in this way the A071400100027 particles of the same mass but different charge A071400100028 separated due to different energy loss in the foil. A071400100029 SAMPLE Isotopically enriched 6-Li-F (493 mug/cm2) and 7-Li-F A071400100030 (437 mug/cm2) targets on a carbon backing and pure A071400100031 12-C target (105 mug/cm2) were used. A071400100032 DETECTOR (SPEC) Outgoing charged particles were detected in A071400100033 three large-area silicon arrays with a total of 320 A071400100034 strip detectors (300 mum thick). The forward detectorA071400100035 array (LEDA), consisted of 8 sectors each containing A071400100036 16 strips; the angles covered were 4-12 degrees. TheA071400100037 detector arrays placed at larger angles (LAMP) had 6 A071400100038 sectors each and they were covering angles 20-65 A071400100039 degree (LAMP1) and 115-160 degree (LAMP2). Azimuthal A071400100040 Range for all arrays was 0-360 degree. The total solidA071400100041 angle was ~4 sr. A071400100042 HISTORY (20041222C) by F.Ch A071400100043 (20041207R) A071400100044 (20050112A) A little remark from M.Milin is included. A071400100045 (20050112U) Last checking has been done. A071400100046 STATUS (TABLE) From M.Milin. A071400100047 (APRVD) Be M.Milin A071400100048 ERR-ANALYS (ANG-ERR) It is angular spread. A071400100049 (ERR-S) Statistical error. A071400100050 ENDBIB 48 0 A071400100051 COMMON 1 3 A071400100052 EN A071400100053 MEV A071400100054 17.9 A071400100055 ENDCOMMON 3 0 A071400100056 ENDSUBENT 55 0 A071400199999 SUBENT A0714002 20050112 A061A071400200001 BIB 1 1 A071400200002 REACTION (3-LI-6(2-HE-6,EL)3-LI-6,,DA) A071400200003 ENDBIB 1 0 A071400200004 NOCOMMON 0 0 A071400200005 DATA 4 29 A071400200006 ANG-CM ANG-ERR DATA-CM ERR-S A071400200007 ADEG ADEG MB/SR MB/SR A071400200008 12.79 0.938 5230.7 24.2 A071400200009 13.72 0.936 4279.8 17.5 A071400200010 14.66 0.932 3457.8 14.1 A071400200011 15.59 0.934 2933.8 11. A071400200012 16.52 0.93 2348.1 8.41 A071400200013 17.45 0.926 1965.7 6.13 A071400200014 18.37 0.922 1584. 4.43 A071400200015 19.3 0.925 1279.4 3.77 A071400200016 20.22 0.921 1029.8 3.32 A071400200017 21.14 0.924 816.97 2.9 A071400200018 22.06 0.915 594.24 2.56 A071400200019 22.97 0.91 444.35 2.48 A071400200020 23.92 0.949 334.64 2.86 A071400200021 41.94 4.58 92.565 18.1 A071400200022 46.73 4.79 77.896 14.9 A071400200023 51.73 4.99 48.383 11.5 A071400200024 56.87 5.14 15.421 4.12 A071400200025 61.63 5.27 1.8616 0.598 A071400200026 67.02 5.39 4.5073 0.127 A071400200027 72.5 5.48 6.3047 0.328 A071400200028 78.06 5.55 5.7198 0.259 A071400200029 83.65 5.6 3.8933 0.227 A071400200030 89.25 5.6 2.3049 0.191 A071400200031 94.87 5.62 1.9451 0.169 A071400200032 100.4 5.57 3.9989 0.206 A071400200033 105.9 5.42 2.8783 0.205 A071400200034 111.4 5.53 2.5987 0.385 A071400200035 116.8 5.43 1.4151 0.374 A071400200036 122.1 5.23 1.9934 0.635 A071400200037 ENDDATA 31 0 A071400200038 ENDSUBENT 37 0 A071400299999 SUBENT A0714003 20050112 A061A071400300001 BIB 3 6 A071400300002 REACTION (3-LI-7(2-HE-6,EL)3-LI-7,,DA) A071400300003 REL-REF (R,,K.W.POTTHAST+,J,NP/A,614,95,1997) A071400300004 (R,,K.W.POTTHAST+,J,NP/A,629,656,1998) It is data for A071400300005 elastic scattering of 6-Li on 7-Li, which were used forA071400300006 authors' data. A071400300007 ADD-RES (COMP) With elastic scattering of 6-Li on 7-Li. A071400300008 ENDBIB 6 0 A071400300009 NOCOMMON 0 0 A071400300010 DATA 4 28 A071400300011 ANG-CM ANG-ERR DATA-CM ERR-S A071400300012 ADEG ADEG MB/SR MB/SR A071400300013 12.74 0.869 6620.3 23.4 A071400300014 13.61 0.865 5047.8 18.2 A071400300015 14.47 0.867 4160.3 13. A071400300016 15.34 0.863 3680.6 13.5 A071400300017 16.19 0.859 2940.4 10.4 A071400300018 17.05 0.855 2395.9 8.62 A071400300019 17.91 0.857 1931.7 7.45 A071400300020 18.76 0.853 1493.8 4.89 A071400300021 19.62 0.856 1169.3 4.04 A071400300022 20.47 0.848 842.2 3.22 A071400300023 21.31 0.843 602.99 2.93 A071400300024 22.19 0.879 450.45 3.33 A071400300025 38.51 4.17 77.224 0.416 A071400300026 42.86 4.35 76.319 0.332 A071400300027 47.4 4.52 38.186 0.248 A071400300028 52.03 4.62 15.985 0.225 A071400300029 56.41 4.8 7.8852 1.131 A071400300030 60.92 4.5 4.8878 0.275 A071400300031 66.11 5.17 6.1105 0.23 A071400300032 71.73 5.59 7.9608 0.21 A071400300033 75.13 3.39 6.005 0.181 A071400300034 81.4 6.23 2.8759 0.175 A071400300035 86.72 5.28 2.4958 0.176 A071400300036 89.1 2.37 2.1725 0.162 A071400300037 93.76 4.63 3.7012 0.135 A071400300038 99.03 5.22 3.8517 0.117 A071400300039 105.8 6.64 3.0965 0.144 A071400300040 109.4 3.58 2.8059 0.279 A071400300041 ENDDATA 30 0 A071400300042 ENDSUBENT 41 0 A071400399999 ENDENTRY 3 0 A071499999999