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 /* NRDF D1858 Data No.4                                              */
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 /* Bibliography                                                      */
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 \\BIB,4;
 D#=D1858;
 TITLE=/Measurement of neutrons from thick Fe target bombarded by 210
        MeV protons/;
 ATH=(S.YONAI'1', T.KUROSAWA'2', H.IWASE'1', H.YASHIMA'1',
      Y.UWAMINO'3', T.NAKAMURA'1');
 INST-ATH=(2JPNTOH'1', 2JPNAIS'2', 2JPNIPC'3');
      /* '1' Cyclotron and Radioisotope Center (CYRIC) */
 REF=NIM/A;
 VLP=515(2003)733;
 RCTS=FE(P,N)X;
 PHQS=(ENGY-SPEC, ANGL-DSTRN, N-MLT);
 /*===================================================================*/
 /* Experimental Conditions                                           */
 /*===================================================================*/
 \\EXP,4;
 /* 2003-12-16 : Compiled */
 ENR=NAT;
 CHM=ELM;
 PHYS-FORM=SLD'4';
 /* '4' Covered with aluminium foil to absorb secondary electorons
        emitting from the target */
 THK-TGT=XMG/CM**2'5';
 /* '5' 24 mm diameter by 55 mm thickness, which can stop the
        incident protons completely */
 POL-TGT=0%;
 ALGN-TGT=0%;
 ACC=CYC'6';
 /* '6' Ring Cyclotron */
 INST-ACC=2JPNIPC;
 INC-ENGY-LAB=210MEV;
 POL-PRJ=0%;
 DET-PARTCL=N;
 COINC=NO;
 ANT-COINC=NO;
 DET-SYS=(SCT'7',SCT'8',EDE'9',TOF'10');
 /* '7' NE213 liquid scintillator used as E-counter and ToF start
        signal for neutron energy measurement. Calibration was
        performed to convert light output into MeV electron equivalent
        using 60Co and 241Am-Be gamma-ray sources. */
 /* '8' NE102A liquid scintillator used as Delta E counter */
 /* '9' To eliminate charged particles */
 /* '10' To measure emitted neutron energy (Chopper trigger signal
         from the cyclotron was used as the stop signal for ToF
         measurement). Energy resolution of ToF experiment is shown in
         Fig.6 as a function of neutron energy. */
 /* Experimental Method:
    - Particle identification by 'E/Delta E' measurement (To
      eliminate charged particles)
    - Time-of-flight (To measure emitted neutron energy (Chopper
      trigger signal from the cyclotron was used as the stop signal for
      ToF measurement). Energy resolution of ToF experiment is shown in
      Fig.6 as a function of neutron energy.)
    - Beam current integrated
 RCT=FE(P,N)X;
 PHQ=ENGY-SPEC;
 ANL=INCASC'32';
 /* '32' MCNPX [L.S.Waters(Ed.) MCNPX User's Manual Version 2.4.0,
         LA-CP-02-408, LANL, 2002] and NMTC/JAM [K.Niita et al., Nucl.
         Instr. Meth. B184(2001)406]. */
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 /* Descriptive Parameters                                            */
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 \\DATA,4;
 INC-ENGY-LAB=210MEV;
 SYS-ERR=(<5%'33',<2%'34',<5%'35',<18%'36',X%'37');
 /* '33' Maximum normalization uncertainty in the beam current
         measured with a current integrator */
 /* '34' Maximum uncertainty in the solid angle dominated by the
         uncertainty in the flight path length of neutron */
 /* '35' Maximum uncertainty in neutron energy correction factor
         in terms of absorption and scattering between target and
         detector */
 /* '36' Maximum uncertainty in total normalization */
 /* '37' Uncertainty in the calculated detection efficiency is
         from 4% to 6% in the energy region below 38.3 MeV, and within
         10% in the energy region above 38.3 MeV. */
 EMT=N;
 THTL=30DEG;
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 /* Data Table                                                        */
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 \DATA;
 ENGY-EMT-LAB-MIN ENGY-EMT-LAB-MAX DN/DOMEGA/DE
 DELTA-DN/DOMEGA/DE'38'
 (MEV) (MEV) (1/SR/MEV/PARTCL) (1/SR/MEV/PARTCL)
 4.693	5.241	1.52E-03	+-2.98E-05
 5.241	5.852	1.51E-03	+-2.60E-05
 5.852	6.536	1.29E-03	+-2.18E-05
 6.536	7.299	1.29E-03	+-2.02E-05
 7.299	8.151	9.55E-04	+-1.67E-05
 8.151	9.103	9.32E-04	+-1.57E-05
 9.103	10.17	8.10E-04	+-1.39E-05
 10.17	11.35	6.72E-04	+-1.21E-05
 11.35	12.68	5.47E-04	+-1.05E-05
 12.68	14.16	4.94E-04	+-9.70E-06
 14.16	15.81	4.46E-04	+-8.89E-06
 15.81	17.66	4.17E-04	+-8.23E-06
 17.66	19.72	4.07E-04	+-7.72E-06
 19.72	22.02	4.03E-04	+-7.20E-06
 22.02	24.59	4.08E-04	+-6.72E-06
 24.59	27.46	3.97E-04	+-6.23E-06
 27.46	30.67	3.74E-04	+-5.73E-06
 30.67	34.25	3.70E-04	+-5.41E-06
 34.25	38.25	3.64E-04	+-5.15E-06
 38.25	42.72	3.43E-04	+-2.09E-06
 42.72	47.7	3.33E-04	+-1.89E-06
 47.7	53.27	3.06E-04	+-1.64E-06
 53.27	59.49	2.98E-04	+-1.50E-06
 59.49	66.44	2.82E-04	+-1.36E-06
 66.44	74.2	2.67E-04	+-1.25E-06
 74.2	82.86	2.66E-04	+-1.21E-06
 82.86	92.54	2.47E-04	+-1.14E-06
 92.54	103.3	2.34E-04	+-1.08E-06
 103.3	115.4	2.02E-04	+-9.95E-07
 115.4	128.9	1.86E-04	+-9.49E-07
 128.9	143.9	1.39E-04	+-8.14E-07
 143.9	160.7	9.46E-05	+-6.65E-07
 160.7	179.5	4.96E-05	+-4.78E-07
 179.5	200.5	1.52E-05	+-2.63E-07
 200.5	223.9	1.09E-06	+-6.94E-08
 \END;
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