/* 2011-06-08 File is generated by HENDEL. */ \\BIB,1[2; D#=D2162; TITLE=/ High-precision (p,t) reaction measurement to determine 18Ne(a,p)21Na reaction rates /; PURPOSE=/ To study the level structure of the compound nucleus 22Mg by measuring the 24Mg(p,t)22Mg reaction. /; ATH=(A.MATIC'1', A.M.VAN'1', M.N.HARAKEH'1', H.J.WOERTCHE'1', G.P.A.BERG'2', M.COUDER'2', J.L.FISKER'2', J.GOERRES'2', P.LEBLANC'2', S.O'BRIEN'2', M.WIESCHER'2', K.FUJITA'3', K.HATANAKA'3', Y.SAKEMI'3', Y.SHIMIZU'3', Y.TAMESHIGE'3', A.TAMII'3', M.YOSOI'3', T.ADACHI'4', Y.FUJITA'4', Y.SHIMBARA'4', H.FUJITA'5', T.WAKASA'6', P.O.HESS'7', B.A.BROWN'8', H.SCHATZ'8'); INST-ATH=(2NEDKVI'1', 1USANOT'2', 2JPNRCN'3', 2JPNOSA'4', 3SAFWIT'5', 2JPNKYU'6', 3MEXUMX'7', 1USAMSU'8'); /* '2' Department of Physics and the Joint Institute for Nuclear Astrophysics */ /* '4' Department of Physics */ /* '5' School of Physics */ /* '6' Department of Physics */ /* '7' Institute of Nuclear Sciences */ /* '8' National Superconducting Cyclotron Laboratory */ REF=PR/C; VLP=80(2009)055804; RCTS=(24MG(P,T)22MG, 18NE(ALPHA,P)21NA); PHQS=(ANGL-DSTRN, X'9'); /* '9' Reaction rates */ \\EXP,1[2; /* 2009-11-26 : Compiled+Checked, TA */ /* 2010-01-10 : Received, Received by e-mail from M. Yosoi */ POL-TGT=0%; ALGN-TGT=0%; ACC=CYC'10'; /* '10' Ring cyclotron */ INST-ACC=2JPNRCN; POL-PRJ=0%; DET-PARTCL=T; COINC=NO; ANT-COINC=NO; DET-SYS=(MAG'11',MWDC'11',SCT'11'); /* '11' Grand Raiden(GR) */ \\EXP,1; RCT=24MG(P,T)22MG; PHQ=ANGL-DSTRN; ENR=99.6%'12'; /* '12' Contained 12C and 16O impurities */ CHM=ELM; PHYS-FORM=SLD; THK-TGT=0.82MG/CM**2; INC-ENGY-LAB-RANGE=98.7MEV; DELTA-INC-ENGY-LAB=0.1MEV; ERS-DET=13KEV; \\DATA,1; INC-ENGY-LAB=98.7MEV; DELTA-INC-ENGY-LAB=0.1MEV; \DATA; EXC-ENGY THTC DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA'13' FLAG'14' (MEV) (DEG) (MB/SR) (MB/SR) (NODIM) 0.000 0.19 4.130E-01 +-6.900E-03 1 0.000 8.91 1.610E-01 +-2.600E-03 1 0.000 18.51 9.630E-03 +-4.300E-04 1 1.247 0.19 6.630E-02 +-2.800E-03 2 1.247 8.91 2.870E-02 +-1.100E-03 2 1.247 18.51 5.440E-03 +-3.300E-04 2 3.308 0.19 4.520E-02 +-2.300E-03 3 3.308 8.91 4.840E-02 +-1.400E-03 3 3.308 18.51 5.420E-02 +-1.000E-03 3 5.954 0.19 3.080E-02 +-1.100E-03 4 5.954 8.91 9.370E-03 +-2.600E-04 4 5.954 18.51 6.130E-04 +-5.900E-05 4 6.036 0.19 4.280E-02 +-1.300E-03 5 6.036 8.91 8.260E-02 +-7.700E-04 5 6.036 18.51 9.190E-02 +-6.700E-04 5 6.226 0.19 9.880E-03 +-6.300E-04 6 6.226 8.91 6.800E-03 +-2.200E-04 6 6.226 18.51 1.100E-02 +-2.300E-04 6 \END; /* Plotted in Fig.12 of J,PR/C,80,055804,2009 */ /* '13' Statistical error */ /* '14' FLAG(1.) 22Mg, E(exc)=0.000MeV, J-pi=0+ (2.) 22Mg, E(exc)=1.247MeV, J-pi=2+ (3.) 22Mg, E(exc)=3.308MeV, J-pi=4+ (4.) 22Mg, E(exc)=5.954MeV, J-pi=0+ (5.) 22Mg, E(exc)=6.036MeV, J-pi=3- (6.) 22Mg, E(exc)=6.226MeV, J-pi=4+ */ \\EXP,2; /* Related references - D.Groombridge et al., PR/C, 66(2002)055802. Reference from which data were used (Resonance strengths used in calculation of rates) - V.Z.Goldberg et al., PR/C, 69(2004)024602. Reference from which data were used (alpha spectroscopic factors used in calculation of resonance strengths) - U.Giesen et al., NP/A, 567(1994)146. Reference from which data were used (alpha spectroscopic factors used in calculation of resonance strengths) - S.Dababneh et al., PR/C, 68(2003)025801. Reference from which data were used (alpha spectroscopic factors used in calculation of resonance strengths) */ RCT=18NE(ALPHA,P)21NA; PHQ=X'15'; /* '15' Reaction rates */ /* Analysis: - Semimicroscopic algebraic cluster model (SACM) is used to calculate alpha spectroscopic factor used in derivation of resonance strengths. */ \\DATA,2; \DATA; KT REACTION-RATE'16' (T9) (CM**3/MOL/SEC) 0.10 5.98E-24 0.15 1.60E-19 0.20 1.78E-15 0.25 7.40E-13 0.30 5.42E-11 0.40 2.05E-08 0.50 1.32E-06 0.60 2.97E-05 0.80 2.37E-03 1.00 5.93E-02 1.5 2.15E+01 2.0 8.01E+02 2.5 7.87E+03 3.0 3.78E+04 4.0 2.96E+05 5.0 1.11E+06 6.0 2.82E+06 8.0 9.26E+06 10.0 1.86E+07 \END; /* Table VIII of J,PR/C,80,055804,2009 */ /* '16' Resonance energies and resonance strengths are used in calculations of reaction rates */ \\END;