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| /*===================================================================*/
/* NRDF D1821 Data No.2 */
/*===================================================================*/
/* Bibliography */
/*===================================================================*/
\\BIB,2;
D#=D1821;
TITLE=/ In-beam gamma spectroscopy of 34Si with deuteron inelastic
scattering using reverse kinematics /;
ATH=(N.IWASA'1', T.MOTOBAYASHI'2', H.SAKURAI'3', H.AKIYOSHI'2',
Y.ANDO'4', N.AOI'3', H.BABA'4', N.FUKUDA'3', Z.FULOP'5',
U.FUTAKAMI'4', T.GOMI'4', Y.HIGURASHI'4', K.IEKI'4', H.IWASAKI'3',
T.KUBO'2', S.KUBONO'6', H.KINUGAWA'4', H.KUMAGAI'2', M.KUNIBU'4',
S.MICHIMASA'6', T.MINEMURA'4', H.MURAKAMI'4', K.SAGARA'7',
A.SAITO'4', S.SHIMOURA'6', S.TAKEUCHI'2', Y.YANAGISAWA'2',
K.YONEDA'2', M.ISHIHARA'2');
INST-ATH=(2JPNTOH'1', 2JPNIPC'2', 2JPNTOK'3', 2JPNRIK'4', 3HUNDEB'5',
2JPNTOK'6', 2JPNKYU'7');
/* '1' Department of Physics */
/* '3' Department of Physics */
/* '4' Department of Physics */
/* '6' Center for Nuclear Study (CNS) */
/* '7' Department of Physics */
REF=PR/C;
VLP=67(2003)064315;
RCTS=2H(34SI,34SI)2H;
PHQS=GAMMA-SPEC;
/*===================================================================*/
/* Experimental Conditions */
/*===================================================================*/
\\EXP,2;
/* 2003-08-22 : Compiled, St + On. */
RTY=INEL-SCATT;
ENR=X%;
CHM=ELM;
PHYS-FORM=LIQD;
THK-TGT=150+-5MG/CM**2'8';
/* '8' Target has two windows. Thickness was decreasing to 97+-8
mg/cm2 at the edges of the windows. */
POL-TGT=0%;
ALGN-TGT=0%;
ACC=(CYC'9',PRJFS'10');
/* '9' 40Ar primary beam at 95A MeV on Be target */
/* '10' 34Si secondary beam */
INST-ACC=(2JPNIPC'9',2JPNIPC'10');
/* '10' RIKEN projectile-fragment separator */
INC-ENGY-LAB=38.4MEV/A'11';
/* '11' Average beam energy in the center of the target. */
POL-PRJ=0%;
ANT-COINC=NO;
DET-SYS=(CNTR-TLSCP'12',SCT'13',PPAC'14',NAI'15',TOF'16',EDE);
/* '12' To detect and identify reaction products */
/* '13' To obtain TOF between target and telescope */
/* '14' To obtain TOF between target and telescope */
/* '15' To detect deexcitation gamma. Typical energy resolution
is 9% for 0.661 MeV gamma rays from 137Cs. Total detection
efficiency is 4.9% for a 3.326 MeV photon emitted from a
source moving with a velocity of 0.28c. */
/* '16' To identify beam particles event by event */
ERS-DET=9%;
ANL=DSA;
/* Experimental Method:
- Time-of-flight (To identify beam particles event by event)
- Particle identification by 'E/Delta E' measurement
RCT=2H(34SI,34SI)2H;
PHQ=GAMMA-SPEC;
DET-PARTCL=(34SI,GAMMA'20');
/* '20' Prompt gamma from 34Si */
COINC=(GAMMA,34SI);
/*===================================================================*/
/* Descriptive Parameters */
/*===================================================================*/
\\DATA,2;
INC-ENGY-LAB=38.4MEV/A'17';
/* '17' Average beam energy in the center of the target. */
EMT-2=GAMMA'21';
THTL-2=40[138DEG;
/*===================================================================*/
/* Data Table */
/*===================================================================*/
\DATA;
ENGY-GAMMA INTNSTY-GAMMA'21' DELTA-INTNSTY-GAMMA'21'
(MEV) (%) (%)
0.124 X +-X
0.591 4.1 +-0.5
0.930 26.2 +-0.7
1.010 29.8 +-0.8
1.053 X +-X
1.193 4.9 +-0.7
1.435 X +-X
1.480 2.0 +-0.8
1.715 15.8 +-0.9
1.941 11.0 +-1.0
2.289 7.0 +-1.2
2.696 14.7 +-1.3
3.326 100.0 +-0.0
4.255 14.0 +-0.8
\END;
/*===================================================================*/
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