/*===================================================================*/
 /* NRDF D1873 Data No.3                                              */
 /*===================================================================*/
 /* Bibliography                                                      */
 /*===================================================================*/
 \\BIB,3;
 D#=D1873;
 TITLE=/ 27Al(d,a)25Mg reaction at 14.7 MeV /;
 ATH=(T.YANABU'1', S.YAMASHITA'1', T.NAKAMURA'2', K.TAKAMATSU'2',
      A.MASAIKE'2', S.KAKIGI'2', D.C.NGUYEN'2', K.TAKIMOTO'2');
 INST-ATH=(2JPNKTO'1', 2JPNKTO'2');
      /* '1' Institute for Chemical Research */
      /* '2' Department of Physics, Faculty of Science */
 REF=JPJ;
 VLP=17(1962)914;
 RCTS=27AL(D,ALPHA)25MG;
 PHQS=(ANGL-DSTRN, XSECTN);
 /*===================================================================*/
 /* Experimental Conditions                                           */
 /*===================================================================*/
 \\EXP,3;
 /* 2004-02-24 : Compiled+Checked, Ic + N.Otuka */
 /* 2009-08-26 : Altered, Nf. AUTHOR (S.Yamashita) corrected */
 /* Related references 
    - T.Yanabu et al., JPJ, 16(1961)2118.
    (Details of beam handling and the methods of measurements of beam
    current and its energy)
    - K.Kimura et al., JPJ, 17(1962)9.
    (Details of beam handling and the methods of measurements of beam
    current and its energy)
 CHM=ELM;
 PHYS-FORM=SLD;
 THK-TGT=0.216MG/CM**2;
 POL-TGT=0%;
 ALGN-TGT=0%;
 ACC=CYC;
 INST-ACC=2JPNKTO;
 INC-ENGY-LAB-RANGE=14.7MEV;
 BEAM-INTNSTY=[0.2UA;
 POL-PRJ=0%;
 DET-PARTCL=ALPHA;
 COINC=NO;
 ANT-COINC=NO;
 DET-SYS=SI'3';
 /* '3' To detect alpha particles from target, solid angle was
        1.06msr. */
 ERS-DET=1.2%'4';
 /* '4' Better than 1.2% */
 /* Comment by compiler: Spin-parity assignments shown in figures and
    this compilation are taken from [P.M. Endt and C.M. Braams, Rev.
    Mod. Phys. 29(1957)683]. However author's comparison between their
    experimental result and prediction based on the two-nucleon pick-up
    theory suggests that the 3.40 MeV level of 25Mg is considered to
    come from the transition to the 9/2+ state rather than to the 3/2-
    state. ENSDF also recoomends 9/2+ for the 3.405 MeV state. */
 /* 2006-10-05 : Altered, Is. Re-digitized */
 RCT=27AL(D,ALPHA)25MG;
 PHQ=ANGL-DSTRN;
 /*===================================================================*/
 /* Descriptive Parameters                                            */
 /*===================================================================*/
 \\DATA,3;
 INC-ENGY-LAB=14.7MEV;
 EXC-ENGY=0.98MEV;
 J-PTY=5/2+;
 /*===================================================================*/
 /* Data Table                                                        */
 /*===================================================================*/
 \DATA;
 THTC DSIGMA/DOMEGA
 (DEG) (UB/SR)
 2.313E+01 4.435E+01
 3.329E+01 2.365E+01
 4.345E+01 2.042E+01
 5.480E+01 2.106E+01
 6.610E+01 1.478E+01
 7.631E+01 1.071E+01
 8.527E+01 1.071E+01
 9.522E+01 1.056E+01
 1.049E+02 1.338E+01
 1.153E+02 1.056E+01
 1.253E+02 1.201E+01
 1.337E+02 1.912E+01
 1.432E+02 2.171E+01
 1.534E+02 2.171E+01
 1.624E+02 2.495E+01
 \END;
 /*===================================================================*/