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Entry No. D1101

D.S.Flynn1,2,R.L.Hershberger1,F.Gabbard1
University of Kentucky, Lexington, KY1
Physical Review, Part C, Nuclear Physics31(1985)87

ENERGY DEPENDENCE OF THE ABSORPTIVE POTENTIAL FOR SUB-COULOMB ENERGY PROTON BOMBARDMENT OF ZIRCONIUM AND MOLYBDENUM ISOTOPES

Click on the data number to see the plot. Or select the box to plot multiple data.
DataFilePhysical quantitiesReaction(s)Energies
1 *INC-ENGY-LAB DSIGMA/DOMEGA3)
DSIGMA/DOMEGA: dsigma/dOmega #1; INC-ENGY-LAB: Incident energy in lab. system #3		 92ZR(P,P)92ZR; between 2.007 and 6.365 MEV
2 *INC-ENGY-LAB STRGTH-FUNCT4)
INC-ENGY-LAB: Incident energy in lab. system #3; STRGTH-FUNCT: Strength function		 92ZR(P,P)92ZR; between 3.444 and 6.329 MEV
3 *INC-ENGY-LAB DSIGMA/DOMEGA3)
DSIGMA/DOMEGA: dsigma/dOmega #1; INC-ENGY-LAB: Incident energy in lab. system #3		 94ZR(P,P)94ZR; between 1.987 and 6.442 MEV
4 *INC-ENGY-LAB STRGTH-FUNCT4)
INC-ENGY-LAB: Incident energy in lab. system #3; STRGTH-FUNCT: Strength function		 94ZR(P,P)94ZR; between 2.461 and 6.489 MEV
5 *INC-ENGY-LAB DSIGMA/DOMEGA3)
DSIGMA/DOMEGA: dsigma/dOmega #1; INC-ENGY-LAB: Incident energy in lab. system #3		 96ZR(P,P)96ZR; between 2.000 and 6.605 MEV
6 *INC-ENGY-LAB STRGTH-FUNCT4)
INC-ENGY-LAB: Incident energy in lab. system #3; STRGTH-FUNCT: Strength function		 96ZR(P,P)96ZR; between 1.959 and 6.434 MEV
7 *INC-ENGY-LAB DSIGMA/DOMEGA3)
DSIGMA/DOMEGA: dsigma/dOmega #1; INC-ENGY-LAB: Incident energy in lab. system #3		 95MO(P,P)95MO; between 2.045 and 6.835 MEV
8 *INC-ENGY-LAB STRGTH-FUNCT4)
INC-ENGY-LAB: Incident energy in lab. system #3; STRGTH-FUNCT: Strength function		 95MO(P,P)95MO; between 3.487 and 6.461 MEV
9 *INC-ENGY-LAB DSIGMA/DOMEGA3)
DSIGMA/DOMEGA: dsigma/dOmega #1; INC-ENGY-LAB: Incident energy in lab. system #3		 98MO(P,P)98MO; between 1.982 and 6.586 MEV
10 *INC-ENGY-LAB STRGTH-FUNCT4)
INC-ENGY-LAB: Incident energy in lab. system #3; STRGTH-FUNCT: Strength function		 98MO(P,P)98MO; between 3.018 and 6.495 MEV
11 *INC-ENGY-LAB DSIGMA/DOMEGA3)
DSIGMA/DOMEGA: dsigma/dOmega #1; INC-ENGY-LAB: Incident energy in lab. system #3		 100MO(P,P)100MO; between 2.018 and 6.657 MEV
12 *INC-ENGY-LAB STRGTH-FUNCT4)
INC-ENGY-LAB: Incident energy in lab. system #3; STRGTH-FUNCT: Strength function		 100MO(P,P)100MO; between 2.459 and 6.361 MEV
13 *INC-ENGY-LAB STRGTH-FUNCT5)
INC-ENGY-LAB: Incident energy in lab. system #3; STRGTH-FUNCT: Strength function		 92ZR(P,N)92NB; between 3.461 and 6.336 MEV
14 *INC-ENGY-LAB STRGTH-FUNCT5)
INC-ENGY-LAB: Incident energy in lab. system #3; STRGTH-FUNCT: Strength function		 94ZR(P,N)94NB; between 2.505 and 6.467 MEV
15 *INC-ENGY-LAB STRGTH-FUNCT5)
INC-ENGY-LAB: Incident energy in lab. system #3; STRGTH-FUNCT: Strength function		 96ZR(P,N)96NB; between 1.995 and 6.468 MEV
16 *INC-ENGY-LAB STRGTH-FUNCT5)
INC-ENGY-LAB: Incident energy in lab. system #3; STRGTH-FUNCT: Strength function		 95MO(P,N)95TC; between 3.477 and 6.454 MEV
17 *INC-ENGY-LAB STRGTH-FUNCT5)
INC-ENGY-LAB: Incident energy in lab. system #3; STRGTH-FUNCT: Strength function		 98MO(P,N)98TC; between 3.004 and 6.508 MEV
18 *INC-ENGY-LAB STRGTH-FUNCT5)
INC-ENGY-LAB: Incident energy in lab. system #3; STRGTH-FUNCT: Strength function		 100MO(P,N)100TC; between 2.467 and 6.353 MEV
19 *INC-ENGY-LAB V RR AR WS RIS AIS VSO RRSO ARSO
AIS: Diffuseness of imag. pot. of surface 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; RIS: Radius of imag. pot. of surface 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		 92ZR(P,P)92ZR; between 2 and 7 MEV
20 *INC-ENGY-LAB V RR AR WS RIS AIS VSO RRSO ARSO
AIS: Diffuseness of imag. pot. of surface 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; RIS: Radius of imag. pot. of surface 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		 94ZR(P,P)94ZR; between 2 and 7 MEV
21 *INC-ENGY-LAB V RR AR WS RIS AIS VSO RRSO ARSO
AIS: Diffuseness of imag. pot. of surface 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; RIS: Radius of imag. pot. of surface 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		 96ZR(P,P)96ZR; between 2 and 7 MEV
22 *INC-ENGY-LAB V RR AR WS RIS AIS VSO RRSO ARSO
AIS: Diffuseness of imag. pot. of surface 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; RIS: Radius of imag. pot. of surface 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		 95MO(P,P)95MO; between 2 and 7 MEV
23 *INC-ENGY-LAB V RR AR WS RIS AIS VSO RRSO ARSO
AIS: Diffuseness of imag. pot. of surface 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; RIS: Radius of imag. pot. of surface 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		 98MO(P,P)98MO; between 2 and 7 MEV
24 *INC-ENGY-LAB V RR AR WS RIS AIS VSO RRSO ARSO
AIS: Diffuseness of imag. pot. of surface 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; RIS: Radius of imag. pot. of surface 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		 100MO(P,P)100MO; between 2 and 7 MEV

3) RATIO TO RUTHERFORD
4) PROTON STRENGTH FUNCTIONS DERIVED FROM MEASUREMENTS OF THE (P,N)STRENGTH FUNCTIONS CORRECTED FOR DECAY CHANNELS OTHER THAN THE NEUTRONCHANNELS, I.E., (P,P), (P,P') AND (P,GAMMA). THE POINTS PLOTTED ARETHE AVERAGE VALUES FOR AVERAGING INTERVALS OF 0.5MEV. THE POINTSSELECTED AVOID ISOBARIC ANALOG RESONANCES.
5) THE (P,N) EXPERIMENTAL STRENGTH FUNCTIONS ARE DEFINED BY=R*SIGMA(P,N)/(4*PI**2*K**(-2)*SIGMA(2L+A)*P(L))), WHERE SIGMA(P,N)IS THE MEASURED CROSS SECTION AND P(L) IS THE COULOMB PENETRATIONFACTOR FOR L-WAVE PROTONS AT A RADIUS R=1.45*A**(1/3) FM. THE POINTSPLOTTED ARE THE AVERAGE VALUES FOR AVERAGING INTERVALS OF 0.5 MEV. THEPOINTS SELECTED AVOID ISOBARIC ANALOG RESONANCES.
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Last update of this script: April 12, 2006. Contact address: darpe-admin@jcprg.org