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Entry No. D0794

K.Hatanaka1,N.Matsuoka1,T.Saito1,K.Hosono1,M.Kondo1, S.Kato2,T.Higo3,S.Matsuki3,Y.Kadota3,K.Ogino3
Research Center for Nuclear Physics, Osaka Univ, Osaka1
Osaka Univ., Osaka2
Kyoto Univ.3
Nuclear Physics, Section A419(1984)530

SYSTEMATIC STUDY OF THE (D,P) REACTION WITH 56 MEV POLARIZED DEUTERONS

Click on the data number to see the plot. Or select the box to plot multiple data.
DataFilePhysical quantitiesReaction(s)Energies
1 *THTC DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4		 12C(D,D)12C; 56 MEV
2 *THTC ANALPW
ANALPW: Analyzing power; THTC: Scattering angle theta in c.m. system #4		 12C(D,D)12C; 56 MEV
3 *THTC DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4		 13C(D,D)13C; 56 MEV
4 *THTC ANALPW
ANALPW: Analyzing power; THTC: Scattering angle theta in c.m. system #4		 13C(D,D)13C; 56 MEV
5 *THTC DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4		 12C(D,P)13C; 56 MEV
6 *THTC ANALPW
ANALPW: Analyzing power; THTC: Scattering angle theta in c.m. system #4		 12C(D,P)13C; 56 MEV
7 *THTC DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4		 12C(D,P)13C; 56 MEV
8 *THTC ANALPW
ANALPW: Analyzing power; THTC: Scattering angle theta in c.m. system #4		 12C(D,P)13C; 56 MEV
9 *THTC DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4		 12C(D,P)13C; 56 MEV
10 *THTC ANALPW
ANALPW: Analyzing power; THTC: Scattering angle theta in c.m. system #4		 12C(D,P)13C; 56 MEV
11 *THTC DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4		 12C(D,P)13C; 56 MEV
12 *THTC ANALPW
ANALPW: Analyzing power; THTC: Scattering angle theta in c.m. system #4		 12C(D,P)13C; 56 MEV
13 *THTC DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4		 13C(D,P)14C; 56 MEV
14 *THTC ANALPW
ANALPW: Analyzing power; THTC: Scattering angle theta in c.m. system #4		 13C(D,P)14C; 56 MEV
15 *THTC DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4		 24MG(D,P)25MG; 56 MEV
16 *THTC ANALPW
ANALPW: Analyzing power; THTC: Scattering angle theta in c.m. system #4		 24MG(D,P)25MG; 56 MEV
17 *THTC DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4		 24MG(D,P)25MG; 56 MEV
18 *THTC ANALPW
ANALPW: Analyzing power; THTC: Scattering angle theta in c.m. system #4		 24MG(D,P)25MG; 56 MEV
19 *THTC DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4		 24MG(D,P)25MG; 56 MEV
20 *THTC ANALPW
ANALPW: Analyzing power; THTC: Scattering angle theta in c.m. system #4		 24MG(D,P)25MG; 56 MEV
21 *THTC DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4		 40CA(D,P)41CA; 56 MEV
22 *THTC ANALPW
ANALPW: Analyzing power; THTC: Scattering angle theta in c.m. system #4		 40CA(D,P)41CA; 56 MEV
23 *THTC DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4		 58NI(D,P)59NI; 56 MEV
24 *THTC ANALPW
ANALPW: Analyzing power; THTC: Scattering angle theta in c.m. system #4		 58NI(D,P)59NI; 56 MEV
25 *THTC DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4		 58NI(D,P)59NI; 56 MEV
26 *THTC ANALPW
ANALPW: Analyzing power; THTC: Scattering angle theta in c.m. system #4		 58NI(D,P)59NI; 56 MEV
27 *THTC DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4		 58NI(D,P)59NI; 56 MEV
28 *THTC ANALPW
ANALPW: Analyzing power; THTC: Scattering angle theta in c.m. system #4		 58NI(D,P)59NI; 56 MEV
29 *THTC DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4		 90ZR(D,P)91ZR; 56 MEV
30 *THTC ANALPW
ANALPW: Analyzing power; THTC: Scattering angle theta in c.m. system #4		 90ZR(D,P)91ZR; 56 MEV
31 *THTC DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4		 90ZR(D,P)91ZR; 56 MEV
32 *THTC ANALPW
ANALPW: Analyzing power; THTC: Scattering angle theta in c.m. system #4		 90ZR(D,P)91ZR; 56 MEV
33 *THTC DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4		 90ZR(D,P)91ZR; 56 MEV
34 *THTC ANALPW
ANALPW: Analyzing power; THTC: Scattering angle theta in c.m. system #4		 90ZR(D,P)91ZR; 56 MEV
35 *THTC DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4		 90ZR(D,P)91ZR; 56 MEV
36 *THTC ANALPW
ANALPW: Analyzing power; THTC: Scattering angle theta in c.m. system #4		 90ZR(D,P)91ZR; 56 MEV
37 *RSD6) EXC-ENGY J-PI DATA7) SPEC-FCTR8) SPEC-FCTR9) SPEC-FCTR10)
EXC-ENGY: Excitation energy (of the final state) #2; RSD: Residual nucleus; SPEC-FCTR: Spectroscopic factor		 90ZR(D,P)91ZR; 56 MEV
38 *INC-ENGY-LAB V RR AR WV RIV AIV WS RIS AIS VSO RRSO ARSO RC
AIS: Diffuseness of imag. pot. of surface type #10; AIV: Diffuseness of imag. pot. of volume type #10; AR: Diffuseness of real pot. of central type #10; ARSO: Diffuseness of real pot. of spin-orbit type #10; INC-ENGY-LAB: Incident energy in lab. system #3; RC: Radius of pot. of Coulomb type #10; RIS: Radius of imag. pot. of surface type #10; RIV: Radius of imag. pot. of volume type #10; RR: Radius of real. pot. of central type #10; RRSO: Radius of real. pot. of spin-orbit type #10; V: Depth of real pot. of central type #10; VSO: Depth of real part of spin-orbit potential #10; WS: Depth of imag. pot. of surface type #10; WV: Depth of imag. pot. of volume type #10		 12C(D,P)13C; between 56 and 65 MEV
39 *INC-ENGY-LAB V RR AR WV RIV AIV WS RIS AIS VSO RRSO ARSO RC
AIS: Diffuseness of imag. pot. of surface type #10; AIV: Diffuseness of imag. pot. of volume type #10; AR: Diffuseness of real pot. of central type #10; ARSO: Diffuseness of real pot. of spin-orbit type #10; INC-ENGY-LAB: Incident energy in lab. system #3; RC: Radius of pot. of Coulomb type #10; RIS: Radius of imag. pot. of surface type #10; RIV: Radius of imag. pot. of volume type #10; RR: Radius of real. pot. of central type #10; RRSO: Radius of real. pot. of spin-orbit type #10; V: Depth of real pot. of central type #10; VSO: Depth of real part of spin-orbit potential #10; WS: Depth of imag. pot. of surface type #10; WV: Depth of imag. pot. of volume type #10		 13C(D,P)14C; between 56 and 65 MEV
40 *INC-ENGY-LAB V RR AR WV RIV AIV WS RIS AIS VSO RRSO ARSO RC
AIS: Diffuseness of imag. pot. of surface type #10; AIV: Diffuseness of imag. pot. of volume type #10; AR: Diffuseness of real pot. of central type #10; ARSO: Diffuseness of real pot. of spin-orbit type #10; INC-ENGY-LAB: Incident energy in lab. system #3; RC: Radius of pot. of Coulomb type #10; RIS: Radius of imag. pot. of surface type #10; RIV: Radius of imag. pot. of volume type #10; RR: Radius of real. pot. of central type #10; RRSO: Radius of real. pot. of spin-orbit type #10; V: Depth of real pot. of central type #10; VSO: Depth of real part of spin-orbit potential #10; WS: Depth of imag. pot. of surface type #10; WV: Depth of imag. pot. of volume type #10		 24MG(D,P)25MG; between 56 and 65 MEV
41 *INC-ENGY-LAB V RR AR WV RIV AIV WS RIS AIS VSO RRSO ARSO RC
AIS: Diffuseness of imag. pot. of surface type #10; AIV: Diffuseness of imag. pot. of volume type #10; AR: Diffuseness of real pot. of central type #10; ARSO: Diffuseness of real pot. of spin-orbit type #10; INC-ENGY-LAB: Incident energy in lab. system #3; RC: Radius of pot. of Coulomb type #10; RIS: Radius of imag. pot. of surface type #10; RIV: Radius of imag. pot. of volume type #10; RR: Radius of real. pot. of central type #10; RRSO: Radius of real. pot. of spin-orbit type #10; V: Depth of real pot. of central type #10; VSO: Depth of real part of spin-orbit potential #10; WS: Depth of imag. pot. of surface type #10; WV: Depth of imag. pot. of volume type #10		 40CA(D,P)41CA; between 56 and 65 MEV
42 *INC-ENGY-LAB V RR AR WV RIV AIV WS RIS AIS VSO RRSO ARSO RC
AIS: Diffuseness of imag. pot. of surface type #10; AIV: Diffuseness of imag. pot. of volume type #10; AR: Diffuseness of real pot. of central type #10; ARSO: Diffuseness of real pot. of spin-orbit type #10; INC-ENGY-LAB: Incident energy in lab. system #3; RC: Radius of pot. of Coulomb type #10; RIS: Radius of imag. pot. of surface type #10; RIV: Radius of imag. pot. of volume type #10; RR: Radius of real. pot. of central type #10; RRSO: Radius of real. pot. of spin-orbit type #10; V: Depth of real pot. of central type #10; VSO: Depth of real part of spin-orbit potential #10; WS: Depth of imag. pot. of surface type #10; WV: Depth of imag. pot. of volume type #10		 58NI(D,P)59NI; between 56 and 65 MEV
43 *INC-ENGY-LAB V RR AR WV RIV AIV WS RIS AIS VSO RRSO ARSO RC
AIS: Diffuseness of imag. pot. of surface type #10; AIV: Diffuseness of imag. pot. of volume type #10; AR: Diffuseness of real pot. of central type #10; ARSO: Diffuseness of real pot. of spin-orbit type #10; INC-ENGY-LAB: Incident energy in lab. system #3; RC: Radius of pot. of Coulomb type #10; RIS: Radius of imag. pot. of surface type #10; RIV: Radius of imag. pot. of volume type #10; RR: Radius of real. pot. of central type #10; RRSO: Radius of real. pot. of spin-orbit type #10; V: Depth of real pot. of central type #10; VSO: Depth of real part of spin-orbit potential #10; WS: Depth of imag. pot. of surface type #10; WV: Depth of imag. pot. of volume type #10		 90ZR(D,P)91ZR; between 56 and 65 MEV

6) RESIDUAL NUCLEUS
7) ASSUMED SINGLE-PARTICLE STATE
8) C**2*S: DEDUCED FROM DWBA WITH PARAMETER SET D1
9) C**2*S: DEDUCED FROM THE ADIABATIC MODEL WITH PARAMETER SET D2
10) C**2*S: DEDUCED FROM THE ADIABATIC MODEL WITH PARAMETER SET D3
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Last update of this script: April 12, 2006. Contact address: darpe-admin@jcprg.org