DARPE: Search Results
Entry No. D1452

K.Itoh1,M.Oyamada1,Y.Torizuka1
Tohoku Univ., Sendai1
Physical Review, Part C, Nuclear Physics2(1970)2181

STUDY OF NUCLEAR STATES IN 40CA BY INELASTIC ELECTRON SCATTERING

Click on the data number to see the plot. Or select the box to plot multiple data.
DataFilePhysical quantitiesReaction(s)Energies
1 *EXC-ENGY COUNTS61)
COUNTS: Count number; EXC-ENGY: Excitation energy (of the final state) #2		 40CA(E,E)40CA; 183 MEV
2 *EXC-ENGY COUNTS63)
COUNTS: Count number; EXC-ENGY: Excitation energy (of the final state) #2		 40CA(E,E)40CA; 183 MEV
3 *EXC-ENGY COUNTS61)
COUNTS: Count number; EXC-ENGY: Excitation energy (of the final state) #2		 40CA(E,E)40CA; 250 MEV
4 *EXC-ENGY COUNTS63)
COUNTS: Count number; EXC-ENGY: Excitation energy (of the final state) #2		 40CA(E,E)40CA; 250 MEV
5 *THTL DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTL: Scattering angle theta in lab. system #4		 40CA(E,E)40CA; 183 MEV
6 *THTL DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTL: Scattering angle theta in lab. system #4		 40CA(E,E)40CA; 183 MEV
7 *THTL DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTL: Scattering angle theta in lab. system #4		 40CA(E,E)40CA; 183 MEV
8 *THTL DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTL: Scattering angle theta in lab. system #4		 40CA(E,E)40CA; 183 MEV
9 *THTL DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTL: Scattering angle theta in lab. system #4		 40CA(E,E)40CA; 183 MEV
10 *THTL DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTL: Scattering angle theta in lab. system #4		 40CA(E,E)40CA; 183 MEV
11 *THTL DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTL: Scattering angle theta in lab. system #4		 40CA(E,E)40CA; 250 MEV
12 *THTL DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTL: Scattering angle theta in lab. system #4		 40CA(E,E)40CA; 250 MEV
13 *THTL DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTL: Scattering angle theta in lab. system #4		 40CA(E,E)40CA; 250 MEV
14 *THTL DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTL: Scattering angle theta in lab. system #4		 40CA(E,E)40CA; 250 MEV
15 *THTL DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTL: Scattering angle theta in lab. system #4		 40CA(E,E)40CA; 250 MEV
16 *THTL TRNSF-MOM F**266)
THTL: Scattering angle theta in lab. system #4; TRNSF-MOM: Transferred momentum		 40CA(E,E)40CA; 183 MEV
17 *THTL TRNSF-MOM F**266)
THTL: Scattering angle theta in lab. system #4; TRNSF-MOM: Transferred momentum		 40CA(E,E)40CA; 183 MEV
18 *THTL TRNSF-MOM F**266)
THTL: Scattering angle theta in lab. system #4; TRNSF-MOM: Transferred momentum		 40CA(E,E)40CA; 183 MEV
19 *THTL TRNSF-MOM F**266)
THTL: Scattering angle theta in lab. system #4; TRNSF-MOM: Transferred momentum		 40CA(E,E)40CA; 183 MEV
20 *THTL TRNSF-MOM F**266)
THTL: Scattering angle theta in lab. system #4; TRNSF-MOM: Transferred momentum		 40CA(E,E)40CA; 250 MEV
21 *THTL TRNSF-MOM F**266)
THTL: Scattering angle theta in lab. system #4; TRNSF-MOM: Transferred momentum		 40CA(E,E)40CA; 250 MEV
22 *THTL TRNSF-MOM F**266)
THTL: Scattering angle theta in lab. system #4; TRNSF-MOM: Transferred momentum		 40CA(E,E)40CA; 250 MEV
23 *THTL TRNSF-MOM F**266)
THTL: Scattering angle theta in lab. system #4; TRNSF-MOM: Transferred momentum		 40CA(E,E)40CA; 250 MEV
24 *TRNSF-MOM F**266)
TRNSF-MOM: Transferred momentum		 40CA(E,E)40CA; 183 MEV
25 *TRNSF-MOM F**266)
TRNSF-MOM: Transferred momentum		 40CA(E,E)40CA; 250 MEV
26 *TRNSF-MOM F**266)
TRNSF-MOM: Transferred momentum		 40CA(E,E)40CA; 183 MEV
27 *THTL TRNSF-MOM F**268)
THTL: Scattering angle theta in lab. system #4; TRNSF-MOM: Transferred momentum		 40CA(E,E)40CA; between 183 and 250 MEV
28 *TRNSF-MOM F**266)
TRNSF-MOM: Transferred momentum		 40CA(E,E)40CA; 183 MEV
29 *TRNSF-MOM F**266)
TRNSF-MOM: Transferred momentum		 40CA(E,E)40CA; 183 MEV
30 *TRNSF-MOM F**266)
TRNSF-MOM: Transferred momentum		 40CA(E,E)40CA; 183 MEV
31 *TRNSF-MOM F**266)
TRNSF-MOM: Transferred momentum		 40CA(E,E)40CA; 183 MEV
32 *TRNSF-MOM F**266)
TRNSF-MOM: Transferred momentum		 40CA(E,E)40CA; 250 MEV
33 *TRNSF-MOM F**266)
TRNSF-MOM: Transferred momentum		 40CA(E,E)40CA; 183 MEV
34 *TRNSF-MOM F**266)
TRNSF-MOM: Transferred momentum		 40CA(E,E)40CA; 250 MEV
35 *EXC-ENGY B(EL)-T83)
EXC-ENGY: Excitation energy (of the final state) #2		 40CA(E,E)40CA; between 183 and 250 MEV
36 *EXC-ENGY B-T-RATIO85)
EXC-ENGY: Excitation energy (of the final state) #2		 40CA(E,E)40CA; between 183 and 250 MEV
37 *EXC-ENGY B(EL)-T87)
EXC-ENGY: Excitation energy (of the final state) #2		 40CA(E,E)40CA; between 183 and 250 MEV
38 *EXC-ENGY B-T-RATIO85)
EXC-ENGY: Excitation energy (of the final state) #2		 40CA(E,E)40CA; between 183 and 250 MEV

61) COUNTS PER MICRO COULOMB (SEM)
63) COUNTS PER MICRO COULOMB (SEM) SUBTRACTED THE RADIATIVEEFFECTS USING THE ITERATIVE PROCEDURE OF CRANNELL[H.CRANNELL,PHYS.REV.148,1107(1966)].
66)
68) FORM FACTOR SQUARED OF THE GIANT RESONANCE.
83)
85) RATIO OF REDUCED TRANSITION PROBABILITIY B TO THE VAlUESOF B IN WEISSKOPF SINGLE PERTICLE UNITS.WEISSKOPF UNITS ARE DEFINEDBY B(EL)=[(2*L+1)/4/PI]*[3/(L+3)]**2*R**(2*L)*E**2*F**(2*L), WITHR=1.20*A**(1/3)FM.
87) REDUCED TRANSITION PROBABILITIES OBTAINED WITH THESHELL-MODEL TYPE TRANSITION CHARGE DENSITIES.
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Last update of this script: April 12, 2006. Contact address: darpe-admin@jcprg.org