/*===================================================================*/
 /* NRDF D1874 Data No.2                                              */
 /*===================================================================*/
 /* Bibliography                                                      */
 /*===================================================================*/
 \\BIB,2;
 D#=D1874;
 TITLE=/Excitation functions for the reactions induced by alpha
        particles on 107Ag/;
 ATH=(S.FUKUSHIMA'1', S.HAYASHI'1', S.KUME'1', H.OKAMURA'1',
      K.OTOZAI'1', K.SAKAMOTO'1', Y.YOSHIZAWA'1');
 INST-ATH=(2JPNOSA'1');
      /* '1' Faculty of Science */
 REF=NP;
 VLP=41(1963)275;
 RCTS=(107AG(ALPHA,N)110IN, 107AG(ALPHA,2*N)109IN,
       107AG(ALPHA,X)109CD, 107AG(ALPHA,3*N)108IN, 107AG(ALPHA,X)106AG,
       107AG(ALPHA,X)105AG);
 PHQS=(XSECTN, XSECTN-RATIO'2');
 /* '2' Isomeric ratio sigma(ground) / sigma(metastable) */
 /*===================================================================*/
 /* Experimental Conditions                                           */
 /*===================================================================*/
 \\EXP,2;
 /* 2004-02-24 : Compiled */
 CHM=ELM;
 PHYS-FORM=SLD;
 THK-TGT=7[10MG/CM**2;
 POL-TGT=0%;
 ALGN-TGT=0%;
 ACC=(CYC'3',CYC'4');
 /* '3' 160 cm variable energy cyclotron */
 /* '4' 110 cm cyclotron */
 INST-ACC=(2JPNTOK'3',2JPNOSA'4');
 DELTA-INC-ENGY-LAB=0.5MEV'5';
 /* '5' According to the error of initial beam energy and the error
        of energy at each foil obtained from the range-energy relation
 POL-PRJ=0%;
 COINC=NO;
 ANT-COINC=NO;
 /* Experimental Method:
    - Stacked target irradiation (Energy of incident alpha particles
      at each stacked foil was estimated from the range-energy relation
      given by Bichsel et al. [H. Bichsel et al., Phys. Rev.
      105(1957)1788].)
    - Activation (Activation were performed for the order of 1000
      micro-Curie in 5 to 30 min for the short-lived activities and
      5000 micro-Curie in 4 to 5 h for the long-lived ones.)
    - Chemical separation (Efficiencies of chemical separations are
      tabulated in Table I, p277 in the reference)
 RCT=107AG(ALPHA,N)110IN;
 PHQ=XSECTN;
 DET-PARTCL=GAMMA'12';
 /* '12' Delayed gamma from 110In (ground state) */
 DET-SYS=NAI'13';
 /* '13' NaI(Tl) scintillator */
 ANL=STATIST-MODEL'14';
 /* '14' Statistical theory calculations based on the capture
         cross sections obtained from the optical model and the level
         density formula based on the Fermi-gas model */
 /* Analysis:
    - Decay curve analysis (To separate activities of 4.9 h 110In and
      58 min 108In)
 /*===================================================================*/
 /* Descriptive Parameters                                            */
 /*===================================================================*/
 \\DATA,2;
 SYS-ERR=12%'15';
 /* '15' Uncertainties in absolute measurements (ambiguities of
         nuclear data, standard activities used in the absolute
         measurements of activities) */
 RSD=110IN;
 /*===================================================================*/
 /* Data Table                                                        */
 /*===================================================================*/
 \DATA;
 INC-ENGY-CM XSECTN DELTA-XSECTN'16' DELTA-XSECTN'17' DATA1'18'
 (MEV) (MB) (%) (MB) (MEV)
 10.1   0.14  +-8.  +-0.02  10.1
 10.8   1.23  X     X       X
 12.6  17.2   X     X       X
 12.8  18.8   X     X       X
 14.4  64.5   X     X       X
 15.6 131.    +-9.  +-20.   15.6
 15.9 141.    X     X       X
 17.4 214.    X     X       X
 18.9 235.    X     X       X
 19.5 232.    X     X       X
 20.3 217.    X     X       X
 20.7 195.    +-7.  +-26.   20.7
 21.6 165.    X     X       X
 22.6 121.    X     X       X
 22.9 151.    X     X       X
 24.0 114.    X     X       X
 \END;
 /*===================================================================*/