ENTRY L0168 20120228 L018L016800000001 SUBENT L0168001 20120228 L018L016800100001 BIB 8 35 L016800100002 TITLE Two-body photodisintegration of 3He between 7 and 16 L016800100003 MeV L016800100004 AUTHOR (W.Tornow,H.J.Karwowski,J.H.Kelley,R.Raut,G.Rusev, L016800100005 S.C.Stave,A.P.Tonchev,A.Deltuva,A.C.Fonseca, L016800100006 L.E.Marcucci,M.Viviani,A.Kievsky,J.Golak,R.Skibinski, L016800100007 H.Witala,R.Schiavilla) L016800100008 INSTITUTE (1USADKE,1USATNL,1USANCA,1USANCS,2PRTLIS,3POLUJK, L016800100009 1USACBF) L016800100010 (2ITYITY)University of Pisa, Pisa L016800100011 (2ITYITY) INFN Pisa,Pisa L016800100012 (1USAUSA)Old Dominion University, Norfolk, Virginia L016800100013 REFERENCE (J,PL/B,702,121,2011) L016800100014 FACILITY (ESTRG,1USADKE)Experiment performed at the Duke L016800100015 University electron storage ring using High-Intensity L016800100016 Gamma-ray Source (HIgS). L016800100017 DETECTOR (SCIN) High-pressure 3He-Xe gas scintillation L016800100018 detector with total pressure of 51 atm was used. L016800100019 Scintillator was filled in 5.5 cm inner diameter L016800100020 cylindrical stainless steel vessels of 0.1 cm wall L016800100021 thickness. Efficiency of noble gas scintillators for L016800100022 detecting charged particles is known to be 1.0. For L016800100023 a total pressure of about 50 atm a 4:1 ratio of 3He L016800100024 gas to Xe was optimal for 10 to 13 MeV photons. For L016800100025 photon energies above 13 MeV optimal ratio was 2:1. L016800100026 (HPGE,NAICR) HPGe and NaI(Tl) detectors were used to L016800100027 measure the incident photon energy and intensity. L016800100028 INC-SOURCE (LCS) Photons were produced via Compton L016800100029 backscattering of free-electron laser (FEL) photons L016800100030 from relativistic electrons in one of the two L016800100031 straight sections of electron storage ring. The L016800100032 electron energies were varied between 650 and 750 MeV L016800100033 and the FEL wavelength was changed between 350 and L016800100034 400 nm to cover the gamma ray energy range between L016800100035 22.0 and 29.5 MeV. L016800100036 HISTORY (20120228C) Compiled by S.H. L016800100037 ENDBIB 35 0 L016800100038 NOCOMMON 0 0 L016800100039 ENDSUBENT 38 0 L016800199999 SUBENT L0168002 20120228 L018L016800200001 BIB 3 4 L016800200002 REACTION (2-HE-3(G,P)1-H-2,,SIG) L016800200003 ERR-ANALYS (ERR-S) Statistical uncertainty L016800200004 (ERR-SYS) Systematic uncertainty L016800200005 STATUS (TABLE) Data taken from tab.1 of the reference L016800200006 ENDBIB 4 0 L016800200007 NOCOMMON 0 0 L016800200008 DATA 5 11 L016800200009 EN DATA ERR-S +ERR-SYS -ERR-SYS L016800200010 MEV MB MB MB MB L016800200011 6.96 0.416 0.004 0.016 0.019 L016800200012 7.93 0.675 0.006 0.018 0.026 L016800200013 8.78 0.863 0.008 0.025 0.039 L016800200014 9.85 0.974 0.006 0.023 0.041 L016800200015 10.85 1.041 0.006 0.026 0.045 L016800200016 11.78 1.020 0.005 0.035 0.053 L016800200017 12.00 1.051 0.005 0.032 0.040 L016800200018 12.78 1.033 0.005 0.026 0.044 L016800200019 14.05 0.964 0.009 0.037 0.043 L016800200020 14.95 0.912 0.010 0.030 0.037 L016800200021 15.95 0.855 0.007 0.041 0.047 L016800200022 ENDDATA 13 0 L016800200023 ENDSUBENT 22 0 L016800299999 ENDENTRY 2 0 L016899999999