/* 2017-05-29 File is generated by HENDEL. */ \\BIB,1[2; D#=D2506; TITLE=/ First application of the Trojan horse method with a radioactive ion beam: Study of the 18F(p,alpha)15O reaction at astrophysical energies /; PURPOSE=/ to measure cross section of the 18F(p,alpha)15O reaction /; ATH=(S.CHERUBINI'1,2', M.GULINO'1,3', C.SPITALERI'1,2', G.G.RAPISARDA'1,2', M.LA COGNATA'1', L.LAMIA'2', R.G.PIZZONE'1', S.ROMANO'1,2', S.KUBONO'4,5', H.YAMAGUCHI'5', S.HAYAKAWA'1,5', Y.WAKABAYASHI'5', N.IWASA'6', S.KATO'7', T.KOMATSUBARA'8', T.TERANISHI'9', A.COC'10', N.DE SEREVILLE'11', F.HAMMACHE'11', G.KISS'12', S.BISHOP'4,13', D.N.BINH'5,14'); INST-ATH=(2ITYLNS'1', 2ITYCAT'2', 2ITYITY'3', 2JPNIPC'4', 2JPNTOK'5', 2JPNTOH'6', 2JPNYMG'7', 3KORKOR'8', 2JPNKYU'9', 2FR CSN'10', 2FR PAR'11', 3HUNDEB'12', 2GERMUN'13', 3VN VN'14'); /* '2' Dipartimento di Fisica ed Astronomia */ /* '3' Universita di Enna KORE, Enna */ /* '5' Center for Nuclear Study */ /* '6' Department of Physics */ /* '7' Department of Physics */ /* '8' Rare Isotope Science Project, Institute for Basic Science, Daejeon */ /* '9' Department of Physics */ /* '10' Centre de Spectrometrie Nucleaire et de Spectrometrie de Masse, IN2P3 */ /* '11' Institut de Physique Nucleaire, IN2P3 */ /* '14' 30 MeV Cyclotron Center, Tran Hung Dao Hospital, Hanoi */ REF=PR/C; VLP=92(2015)015805; RCTS=P(18F,ALPHA)15O; PHQS=ASTR-SFCTR; \\EXP,1[2; /* 2016-06-19 : Compiled+Checked, Ichiko */ PHQ=ASTR-SFCTR; CHM=CD2; PHYS-FORM=SLD; THK-TGT=0.150MG/CM**2; POL-TGT=0%; ALGN-TGT=0%; ACC=(CYC'15',PRJFS'16'); /* '15' 18F beam was produced via 18O(p,n)18F reaction */ /* '16' produced 18F */ INST-ACC=(2JPNIPC'15',2JPNTOK'16'); /* '16' Center for Nuclear Study (CRIB) */ BEAM-INTNSTY=5E+05[2E+06PPS; POL-PRJ=0%; DET-PARTCL=(ALPHA,15O); COINC=NO; ANT-COINC=NO; DET-SYS=(SI'17',TOF); /* '17' double-sided multistrip silicon detectors for heaviest ejecta and Trojan horse modular system (ASTRHO) for lighter ejecta */ /* Analysis: - Trojan-horse method */ \\EXP,1; RCT=(P(18F,ALPHA)15O=18F(P,ALPHA)15O); \\DATA,1; \DATA; INC-ENGY-CM DELTA-INC-ENGY-CM ASTR-SFCTR'18' DELTA-ASTR-SFCTR'18' (KEV) (KEV) (MEV*B) (MEV*B) 3.23 +-24.73 5.854E+01 +-3.918E+01 54.84 +-24.73 1.093E+02 +-7.445E+01 106.50 +-24.73 1.770E+02 +-1.235E+02 155.90 +-24.73 6.998E+01 +-4.881E+01 205.40 +-24.73 1.591E+01 +-1.110E+01 254.80 +-23.66 1.036E+01 +-7.229E+00 305.40 +-24.73 2.485E+01 +-1.618E+01 354.80 +-24.73 3.814E+01 +-2.530E+01 404.30 +-24.73 2.971E+01 +-2.006E+01 454.80 +-25.81 1.802E+01 +-1.247E+01 504.30 +-24.73 3.191E+01 +-2.208E+01 554.80 +-24.73 1.036E+02 +-7.229E+01 605.40 +-24.73 4.170E+02 +-2.909E+02 654.80 +-26.88 8.669E+02 +-6.047E+02 704.30 +-25.81 6.874E+02 +-4.832E+02 754.80 +-26.88 2.575E+02 +-1.797E+02 804.30 +-25.81 2.816E+01 +-1.964E+01 854.80 +-25.81 2.971E+00 +-2.088E+00 \END; /* Plotted in Fig.4 of J,PR/C,92,015805,2015 */ /* '18' assumption of 3/2+ for the resonance at 6460 keV */ \\EXP,2; RCT=(P(18F,ALPHA)15O=18F(P,ALPHA)15O); \\DATA,2; \DATA; INC-ENGY-CM DELTA-INC-ENGY-CM ASTR-SFCTR'19' DELTA-ASTR-SFCTR'19' (KEV) (KEV) (MEV*B) (MEV*B) 4.30 +-24.73 2.116E-01 +-1.404E-01 53.76 +-25.81 3.814E-01 +-2.640E-01 102.20 +-24.73 6.633E-01 +-4.400E-01 152.70 +-23.66 2.766E-01 +-1.851E-01 206.50 +-24.73 7.516E-01 +-5.160E-01 254.80 +-23.66 9.479E+00 +-6.454E+00 305.40 +-24.73 2.485E+01 +-1.734E+01 354.80 +-23.66 3.747E+01 +-2.614E+01 404.30 +-25.81 2.971E+01 +-2.088E+01 454.80 +-25.81 1.901E+01 +-1.250E+01 504.30 +-25.81 3.191E+01 +-2.191E+01 554.80 +-25.81 1.036E+02 +-7.057E+01 602.20 +-24.73 4.400E+02 +-2.919E+02 653.80 +-24.73 8.825E+02 +-6.010E+02 703.20 +-24.73 6.998E+02 +-4.725E+02 752.70 +-25.81 2.669E+02 +-1.787E+02 802.20 +-24.73 2.971E+01 +-2.006E+01 851.60 +-25.81 3.134E+00 +-2.060E+00 \END; /* Plotted in Fig.4 of J,PR/C,92,015805,2015 */ /* '19' assumption of 5/2- for the resonance at 6460 keV */ \\END;