ENTRY C1674 20120706 C120C167400000001 SUBENT C1674001 20120706 C120C167400100001 BIB 12 47 C167400100002 TITLE Lowest l = 0 proton resonance in 26Si and implications C167400100003 for nucleosynthesis of 26Al C167400100004 AUTHOR (P.N.Peplowski,L.T.Baby,I.Wiedenhover,S.E.Dekat, C167400100005 E.Diffenderfer,D.L.Gay,O.Grubor-Urosevic,P.Hoflich, C167400100006 R.A.Kaye,N.Keeley,A.Rojas,A.Volya) C167400100007 INSTITUTE (1USAFSU,3POLIBJ) C167400100008 (1USAUSA)University of North Florida, Jacksonville C167400100009 (1USAUSA)Purdue University Calumet,Hammond,Indiana C167400100010 (1USAUSA)Ohio Wesleyan University, Delaware, Ohio C167400100011 REFERENCE (J,PR/C,79,032801,2009) C167400100012 FACILITY (LINAC,1USAFSU) RESOLUT facility at the John D. C167400100013 Fox superconducting accelerator laboratory of C167400100014 Florida State University. C167400100015 SAMPLE Deuterized polyethylene CD2 foil with thickness of C167400100016 1.66 mg/cm2 C167400100017 DETECTOR (IOCH,SISD,SI)The experimental setup used a hybrid C167400100018 ion chamber/silicon detector system with 5 x 5 cm C167400100019 active area, located 15.8 cm behind the secondary C167400100020 target, with its center blocked by a 1 cm2 square C167400100021 beam stopper. The silicon double surface strip C167400100022 detector (DSSD) with a segmentation of 16 x 16 C167400100023 strips and a thickness of 491 mu-m was backed up by C167400100024 a second 5 x 5 cm unsegmented detector, which served C167400100025 as a veto against high-energy protons punching through C167400100026 the DSSD. C167400100027 (MCPLT) A microchannel plate detector located 2.7 m C167400100028 upstream of the final target position was used to C167400100029 suppress the majority of beam contaminants off-line C167400100030 through a time-of-flight measurement, C167400100031 METHOD (EDE) Inverse kinematics proton-transfer reaction C167400100032 25Al(d,n)26Si with 25Al beam and CD2 target was used C167400100033 to populate states of 26Si. C167400100034 (TOF) Time of flight allowed to achieve a beam purity C167400100035 of 67% in off line analysis. C167400100036 INC-SOURCE The primary beam of 24Mg bombarded a gas-cell target C167400100037 containing D2 gas, creating the desired 25Al particles C167400100038 through the inverse kinematics 24Mg(d,n)25Al reaction. C167400100039 The resulting beam of 25Al at energy of 91.5 MeV was C167400100040 selected to a purity of 20% using RESOLUT - a mass C167400100041 spectrometer with active beam cooling. C167400100042 ANALYSIS Resonance parameters of 26Si were determined using C167400100043 inverse kinematics reaction d(25Al,n)26Si C167400100044 ERR-ANALYS (DATA-ERR) No information given C167400100045 HISTORY (20090402C) Compiled by S.H. C167400100046 (20120706A) SD: Subent 2 deleted (26Si* is residual C167400100047 resonance, which are not in scope of EXFOR); E-LVL was C167400100048 corrected in Subent 3. C167400100049 ENDBIB 47 0 C167400100050 NOCOMMON 0 0 C167400100051 ENDSUBENT 50 0 C167400199999 NOSUBENT C1674002 20120706 C120C167400200001 SUBENT C1674003 20120706 C120C167400300001 BIB 3 3 C167400300002 REACTION (1-H-2(13-AL-25,N)14-SI-26,PAR,SIG) C167400300003 STATUS (TABLE) Data taken from tab. 1 of the reference C167400300004 HISTORY (20120706A) SD: E-LVL was corrected 396. => 5914. C167400300005 ENDBIB 3 0 C167400300006 NOCOMMON 0 0 C167400300007 DATA 4 1 C167400300008 EN E-LVL DATA DATA-ERR C167400300009 MEV KEV MB MB C167400300010 91.5 5914. 8.7 3.0 C167400300011 ENDDATA 3 0 C167400300012 ENDSUBENT 11 0 C167400399999 ENDENTRY 3 0 C167499999999