ENTRY C2043 20130822 C135C204300000001 SUBENT C2043001 20130822 C135C204300100001 BIB 11 46 C204300100002 TITLE Radiative capture reactions with heavy beams: C204300100003 extending the capabilities of DRAGON C204300100004 AUTHOR (A.Simon,J.Fallis,A.Spyrou,A.M.Laird,C.Ruiz,L.Buchmann,C204300100005 B.R.Fulton,D.Hutcheon,L.Martin,D.Ottewell, A.Rojas) C204300100006 INSTITUTE (1USAMSU,1CANTMF) C204300100007 (2UK UK) University of York, Heslington, York C204300100008 REFERENCE (J,EPJ/A,49,60,2013) C204300100009 FACILITY (CYCLO,1CANTMF) Experiment performed at ISAC facility C204300100010 at TRIUMF using DRAGON recoil separator C204300100011 SAMPLE Windowless hydrogen gas target with an effective C204300100012 length of 12.3 cm. The pressure in the target can be C204300100013 regulated within the range of 0.2 - 8 Torr. C204300100014 Differential pumping between the target and the C204300100015 separator provides pressure reduction to 10-6 Torr at C204300100016 the separator entrance. C204300100017 Hydrogen target pressure was maintained at 5.3Torr, C204300100018 corresponding to a target thickness of 4.18E+18 C204300100019 atoms/cm2. C204300100020 DETECTOR (MAGSP) Recoiled reaction products were momentum C204300100021 analyzed in series of magnetic dipoles and C204300100022 quadrupoles and electrostatic dipoles. Recoils were C204300100023 identified in focal plane detector C204300100024 (IOCH) Ionization chamber is a 25 cm long isobutane- C204300100025 filled volume separated from the beam line by a thin C204300100026 Mylar window. The anode of the chamber is divided C204300100027 into three segments, providing additional energy loss C204300100028 information for recoil identification. The first C204300100029 segment provides the primary energy loss measurement, C204300100030 while the total energy is obtained from the sum of C204300100031 all three ion chamber segments. C204300100032 (BGO) The target was surrounded by an array of thirty C204300100033 hexagonal BGO detectors arranged in close-packed C204300100034 geometry. The gamma rays detected by the BGO crystals C204300100035 provide a timing signal for the separator time of C204300100036 flight. C204300100037 (MCPLT) To further increase the beam suppression C204300100038 through improved particle identification a local C204300100039 time-of-flight system was used. The system consisted C204300100040 of two timing detectors, each of which consists of a C204300100041 carbon foil, an electrostatic mirror and a C204300100042 microchannel plate. C204300100043 METHOD (EDE,COINC,TOF) C204300100044 INC-SOURCE Beam of 58Ni10+ ions was produced in Off-Line Ion C204300100045 Source C204300100046 ERR-ANALYS (DATA-ERR) Uncertainty not specified. C204300100047 HISTORY (20130822C) Compiled by S.H. C204300100048 ENDBIB 46 0 C204300100049 NOCOMMON 0 0 C204300100050 ENDSUBENT 49 0 C204300199999 SUBENT C2043002 20130822 C135C204300200001 BIB 3 4 C204300200002 REACTION (28-NI-58(P,G),,WID/STR) C204300200003 STATUS (TABLE) Data taken from tab.1 of the reference C204300200004 CORRECTION The detected yield was corrected for the efficiency C204300200005 of each of the DRAGON systems C204300200006 ENDBIB 4 0 C204300200007 NOCOMMON 0 0 C204300200008 DATA 3 1 C204300200009 EN-RES DATA DATA-ERR C204300200010 KEV EV EV C204300200011 1399.0 0.687 0.096 C204300200012 ENDDATA 3 0 C204300200013 ENDSUBENT 12 0 C204300299999 ENDENTRY 2 0 C204399999999