ENTRY S0235 20211231 S031S023500000001 SUBENT S0235001 20211231 S031S023500100001 BIB 12 57 S023500100002 TITLE Scattering of the halo nucleus 11Be from a lead S023500100003 target at 3.5 times the Coulomb barrier energy S023500100004 AUTHOR (F.F.Duan,Y.Y.Yang,K.Wang,A.M.Moro,V.Guimaraes, S023500100005 D.Y.Pang,J.S.Wang,Z.Y.Sun,Jin Lei,A.Di Pietro,X.Liu, S023500100006 G.Yang,J.B.Ma,P.Ma,S.W.Xu,Z.Bai,X.X.Sun,Q.Hu,J.L.Lou, S023500100007 X.X.Xu,H.X.Li,S.Y.Jin,H.J.Ong,Q.Liu,J.S.Yao,H.K.Qi, S023500100008 C.J.Lin,H.M.Jia,N.R.Ma,L.J.Sun,D.X.Wang,Y.H.Zhang, S023500100009 X.H.Zhou,Z.G.Hu,H.S.Xu) S023500100010 INSTITUTE (3CPRIMP,3CPRLNZ,3CPRUCA,2SPNSEU,3BZLUSP,3CPRBHN, S023500100011 2ITYLNS,3CPRSIU,3CPRBJG,3CPRAEP) S023500100012 (2SPNSPN) Instituto Interuniversitario Carlos I de S023500100013 Fisica Teorica y Computacional (iC1), Sevilla S023500100014 (3CPRCPR) Huzhou University, Huzhou S023500100015 (3CPRCPR) Anhui University, Hefei S023500100016 (3CPRCPR) Shanghai Jiao Tong University, Shanghai S023500100017 REFERENCE (J,PL/B,811,135942,2020) S023500100018 #doi:10.1016/j.physletb.2020.135942 S023500100019 REL-REF (O,S0229001,Fang-Fang Duan+,J,CPH/C,44,024001,2020) S023500100020 9,10B+208Pb datasets compiled separately S023500100021 FACILITY (CYCLO,3CPRIMP) The Radioactive Ion Beam Line in S023500100022 Lanzhou (RIBLL) of the Heavy-Ion Research Facility in S023500100023 Lanzhou (HIRFL) S023500100024 INC-SOURCE The secondary 9Be, 10Be, and 11Be beams were produced S023500100025 by the fragmentation of a primary 13C beam, delivered S023500100026 by the HIRFL on a 4500 um Be target at 54.2 MeV/n, S023500100027 with the beam intensities were 7E+3, 6E+3 and 2E+3 S023500100028 particles per second, respectively. S023500100029 SAMPLE The 208Pb target is a self-supporting foil with a S023500100030 thickness of 8.52 mg/cm2. S023500100031 DETECTOR (SISD,TELES) Two double-sided silicon strip S023500100032 detectors (DSSDs), are positioned at 669 mm and 69 mm S023500100033 away from the target position, respectively. S023500100034 Their thicknesses are 74 and 87 um, and both have 16 S023500100035 horizontal and 16 vertical strips. An array of three S023500100036 delta E-E particle telescopes, were used to detect S023500100037 the scattered particles. Each of these telescopes S023500100038 consisted of a DSSD and a single-sided detector (SSD), S023500100039 covering a range of scattering angles from 5 to 27 deg S023500100040 in the laboratory system. The detector array S023500100041 assembly was mounted 267 mm downstream the target. S023500100042 The DSSDs in these telescopes consisted of 32 strips S023500100043 on each side with 64 X 64 mm2 of total active areas, S023500100044 and are 301, 129, and 144 um thick, respectively. S023500100045 They used to determine the positions of the scattered S023500100046 particles accurately within areas of 2 X mm2. The SSD S023500100047 detectors, which provided the E signals of the S023500100048 scattered particles, have thicknesses of 1536, 1535, S023500100049 and 1528 um, respectively and have the same effective S023500100050 areas as the DSSDs. S023500100051 METHOD (TOF,EDE) The secondary beams were identified using S023500100052 the time-of-flight measurement between two 50 um S023500100053 thick plastic scintillators 1680 cm apart. Elastic S023500100054 scattering events were detected using three three S023500100055 delta E-E particle telescopes. S023500100056 ERR-ANALYS (ERR-S) The statistical errors only S023500100057 HISTORY (20211209R) The data received from Y.Y.Yang S023500100058 (20211231C) Jimin Wang (CNDC) S023500100059 ENDBIB 57 0 S023500100060 COMMON 1 3 S023500100061 EN S023500100062 MEV S023500100063 140. S023500100064 ENDCOMMON 3 0 S023500100065 ENDSUBENT 64 0 S023500199999 SUBENT S0235002 20211231 S031S023500200001 BIB 2 4 S023500200002 REACTION (82-PB-208(4-BE-11,SCT)82-PB-208,,DA,,RTH) S023500200003 Total scattering S023500200004 STATUS (TABLE) Fig.4 of Physics Letters B 811(2020)135942 S023500200005 Data were obtained from AUTHOR S023500200006 ENDBIB 4 0 S023500200007 NOCOMMON 0 0 S023500200008 DATA 3 14 S023500200009 ANG DATA ERR-S S023500200010 ADEG NO-DIM NO-DIM S023500200011 6.5 0.93838 0.024326 S023500200012 7.5 0.93469 0.021760 S023500200013 8.5 0.94519 0.021987 S023500200014 9.5 0.93239 0.023354 S023500200015 10.5 0.88409 0.025469 S023500200016 11.5 0.90725 0.029879 S023500200017 12.5 0.91961 0.035850 S023500200018 13.5 0.87687 0.042435 S023500200019 14.5 0.72942 0.043057 S023500200020 15.5 0.61728 0.044900 S023500200021 16.5 0.33960 0.037734 S023500200022 17.5 0.33669 0.075287 S023500200023 18.5 0.24243 0.069984 S023500200024 19.5 0.10191 0.050957 S023500200025 ENDDATA 16 0 S023500200026 ENDSUBENT 25 0 S023500299999 SUBENT S0235003 20211231 S031S023500300001 BIB 2 3 S023500300002 REACTION (82-PB-208(4-BE-11,X)4-BE-10,,DA) S023500300003 STATUS (TABLE) Fig.5 of Physics Letters B 811(2020)135942 S023500300004 Data were obtained from AUTHOR S023500300005 ENDBIB 3 0 S023500300006 NOCOMMON 0 0 S023500300007 DATA 3 15 S023500300008 ANG DATA ERR-S S023500300009 ADEG B/SR B/SR S023500300010 6.5 23.8691 3.218510 S023500300011 7.5 20.1413 1.994280 S023500300012 8.5 16.9683 1.414030 S023500300013 9.5 13.1273 1.064770 S023500300014 10.5 10.8604 0.886746 S023500300015 11.5 10.0737 0.819782 S023500300016 12.5 8.89377 0.771187 S023500300017 13.5 10.9107 0.868013 S023500300018 14.5 9.60693 0.809051 S023500300019 15.5 6.18154 0.640996 S023500300020 16.5 6.63515 0.666859 S023500300021 17.5 3.89608 0.545560 S023500300022 18.5 2.23440 0.446880 S023500300023 19.5 1.75360 0.438401 S023500300024 20.5 1.51684 0.573310 S023500300025 ENDDATA 17 0 S023500300026 ENDSUBENT 25 0 S023500399999 ENDENTRY 3 0 S023599999999