/* 2004-06-23 FILE IS GENERATED BY HENDEL */ \\BIB,1[4; D#=D1783; TITLE=/3He(d,p)4He reaction at intermediate energies and impulse picture of the (d,p) reactions/; ATH=(T.UESAKA'1', J.NISHIKAWA'1', H.OKAMURA'1', K.SUDA'1', H.SAKAI'2', A.TAMII'2', K.SEKIGUCHI'2', K.YAKO'2', S.SAKODA'2', H.KATO'2', M.HATANO'2', Y.MAEDA'2', T.SAITO'2', N.UCHIGASHIMA'2', N.SAKAMOTO'3', Y.SATOU'3', T.OHNISHI'3', T.WAKUI'3', T.WAKASA'4', K.ITOH'5'); INST-ATH=(2JPNSUU'1', 2JPNTOK'2', 2JPNIPC'3', 2JPNRCN'4', 2JPNTSU'5'); /* '1' Department of Physics */ /* '2' Department of Physics */ /* '5' Tandem Accelerator Center */ REF=PL/B; VLP=533(2002)1; RCTS=3HE(D,P)4HE; PHQS=(ANGL-DSTRN, TNSR-ANALPW'6', SPIN-CORRL-PARA'7', X'8'); /* '6' T20 */ /* '7' Vector polarization correlation coefficient Cyy */ /* '8' polarization correlation coefficient C//, C// = 1- T20/(2**3/2)+1.5*Cyy */ \\EXP,1[4; /* 2004-03-16 : Compiled */ RTY=POL-RCT; CHM=ELM; ALGN-TGT=0%; ACC=CYC; INST-ACC=2JPNIPC; POL-PRJ=[70%; ION-SOURCE=/ Polarized ion source(An atomic-beam type polarized ion source [H.Okamura et al., in Proc. Workshop on Polarized Ion Sources and Polarized Gas Targets, AIP Conf. Proc., Vol.293, 1993, p244]) /; DET-PARTCL=P; COINC=NO; ANT-COINC=NO; DET-SYS=MAG+PLST-SCT+MWDC'9'; /* '9' QQD-QD type magnetic spectrograph SMART, see [T.Ichihara et al., Nucl.Phys.A569(1994)287c]. */ MONTR-RCT=/ , The beam polarization was measured with an in-beam polarimeter after acceleration in the Ring cyclotron. The analyzing reaction was the d+p elastic scattering, observed at theta(cm)=110, 82.5 and 87.5deg at E(d)=140,200 and 270MeV, respectively. /; ANL=IMPULSE-APPROX; \\EXP,1; RCT=3HE(D,P)4HE; PHQ=ANGL-DSTRN; PHYS-FORM=GAS'10'; /* '10' A cryogenic gas target (11K) */ THK-TGT=XMG/CM**2'11'; /* '11' 6.6e20 cm**-3 */ POL-TGT=0.0%; INC-ENGY-LAB=(140MEV, 200MEV, 270MEV); \\DATA,1; SYS-ERR=5%'12'; /* '12' No explanation given for the source of uncertainty */ EMT=P; RSD=4HE; THTL=0DEG; \DATA; INC-ENGY-LAB DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA'13' (MEV) (MB/SR) (MB/SR) 140 2.88 +-0.025 200 1.92 +-0.012 270 0.845 +-0.006 \END; /* Data taken from Table 1, p4 in reference */ /* '13' Statistical error */ \\EXP,2; RCT=3HE(D,P)4HE; PHQ=TNSR-ANALPW'14'; /* '14' T20 */ PHYS-FORM=GAS'15'; /* '15' A cryogenic gas target (11K) */ THK-TGT=XMG/CM**2'16'; /* '16' 6.6e20 cm**-3 */ POL-TGT=0.0%; INC-ENGY-LAB=(140MEV, 200MEV, 270MEV); \\DATA,2; SYS-ERR=2%'17'; /* '17' No explanation given for the source of systematic uncertainty */ EMT=P; RSD=4HE; THTL=0DEG; \DATA; INC-ENGY-LAB TNSR-ANALPW DELTA-TNSR-ANALPW'18' (MEV) (NODIM) (NODIM) 140 -0.294 +-0.013 200 -0.428 +-0.024 270 -0.557 +-0.035 \END; /* Data taken from Table 1, p4 in reference */ /* '18' Statistical error */ \\EXP,3; RCT=3HE(D,P)4HE; PHQ=SPIN-CORRL-PARA'19'; /* '19' Vector polarization correlation coefficient Cyy */ ENR=X%'20'; /* '20' Together with a small amount of N2 gas and Rb vapors */ PHYS-FORM=GAS'21'; /* '21' A spin-exchange type polarized 3He target */ THK-TGT=XMG/CM**2'22'; /* '22' 7.0e19 atoms/cm**3 */ POL-TGT=[15%'23'; /* '23' uncertainty delta-P/P is 8 percent. Absolute value of the 3He polarization was calibrated by mean of the frequency shift of Rb electron-spin-resonance(ESR) in the vicinity of polarized 3He gas. */ INC-ENGY-LAB=(140MEV, 200MEV, 270MEV); \\DATA,3; SYS-ERR=8%'24'; EMT=P; RSD=4HE; THTL=0DEG; \DATA; INC-ENGY-LAB SPIN-CORRL-PARA'24' DELTA-SPIN-CORRL-PARA'24,25' (MEV) (NODIM) (NODIM) 140 -0.635 +-0.018 200 -0.661 +-0.025 270 -0.664 +-0.032 \END; /* Data taken from Table 1, p4 in reference */ /* '24' Vector polarization correlation coefficient Cyy */ /* '25' Statistical error */ \\EXP,4; RCT=3HE(D,P)4HE; PHQ=X'26'; /* '26' polarization correlation coefficient C//, C// = 1- T20/(2**3/2)+1.5*Cyy */ PHYS-FORM=GAS'27'; /* '27' A crygenic and a spin-exchange type polarized 3He target */ THK-TGT=XMG/CM**2'28'; /* '28' 6.6*10**20 and 7.0*10**19 atoms/cm**3 */ INC-ENGY-LAB=(140MEV, 200MEV, 270MEV); \\DATA,4; EMT=P; RSD=4HE; THTL=0DEG; \DATA; INC-ENGY-LAB DATA1'29' DELTA-DATA1'29,30' (MEV) (NODIM) (NODIM) 140 0.151 +-0.032 200 0.160 +-0.046 270 0.201 +-0.060 \END; /* Data taken from the equation in p6 and Table 1 in p4 in reference */ /* '29' polarization correlation coefficient C//, C// = 1- T20/(2**3/2)+1.5*Cyy */ /* '30' Error of polarization correlation coefficient C//, C// = 1- T20/(2**3/2)+1.5*Cyy */ \\END;