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Entry No. D0212

Z.E.Switkowski1,J.C.P.Heggie1,F.M.Mann2
Univ. of Melbourne, Parkville, Victoria1
Hanford Engineering Development Lab., Richland, WA2
Australian Journal of Physics31(1978)253

THRESHOLD EFFECTS IN PROTON-INDUCED REACTIONS ON COPPER

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DataFilePhysical quantitiesReaction(s)Energies
1 *CHNL-NMBR COUNTS
CHNL-NMBR: Channel number; COUNTS: Count number		 X(P,GAMMA)X; 2 MEV
2 *INC-ENGY-CM SIGMA
INC-ENGY-CM: Incident energy in c.m. system #3; SIGMA: Total cross section #1		 X(P,GAMMA)X; between 1.14 and 3.22 MEV
3 *INC-ENGY-CM SIGMA
INC-ENGY-CM: Incident energy in c.m. system #3; SIGMA: Total cross section #1		 X(P,ALPHA)X; between 2.06 and 4.48 MEV
4 *INC-ENGY-CM SIGMA
INC-ENGY-CM: Incident energy in c.m. system #3; SIGMA: Total cross section #1		 X(P,ALPHA)X; between 3.31 and 4.48 MEV
5 *INC-ENGY-CM SIGMA
INC-ENGY-CM: Incident energy in c.m. system #3; SIGMA: Total cross section #1		 X(P,GAMMA)X; between 1.10 and 3.15 MEV
6 *INC-ENGY-CM SIGMA
INC-ENGY-CM: Incident energy in c.m. system #3; SIGMA: Total cross section #1		 X(P,ALPHA)X; between 1.45 and 3.56 MEV
7 *INC-ENGY-CM SIGMA DELTTA-SIGMA
INC-ENGY-CM: Incident energy in c.m. system #3; SIGMA: Total cross section #1		 65CU(P,N)65ZN; between 4.149 and 6.434 MEV
8 *INC-ENGY-CM SIGMA
INC-ENGY-CM: Incident energy in c.m. system #3; SIGMA: Total cross section #1		 65CU(P,N)65ZN; between 2.131 and 3.934 MEV
9 *V RR AR WV RIV AIV WS RIS AIS 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; 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; V: Depth of real pot. of central type #10; WS: Depth of imag. pot. of surface type #10; WV: Depth of imag. pot. of volume type #10		 X(P,GAMMA)X; between 1.2 and 3.3 MEV
10 *V RR AR WV RIV AIV WS RIS AIS 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; 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; V: Depth of real pot. of central type #10; WS: Depth of imag. pot. of surface type #10; WV: Depth of imag. pot. of volume type #10		 65CU(P,N)65ZN; between 2.15 and 4.0 MEV
11 *V RR AR WV RIV AIV WS RIS AIS 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; 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; V: Depth of real pot. of central type #10; WS: Depth of imag. pot. of surface type #10; WV: Depth of imag. pot. of volume type #10		 X(P,ALPHA)X; between 1.5 and 4.6 MEV
12 *Z-RESD A-RESD N-RESD DATA11) DATA22) DATA33)
A-RESD: Mass number of residual nucleus #8; N-RESD: Neutron number of residual nucleus #7; Z-RESD: Atomic number of residual nucleus #6		 65CU(P,N)65ZN; between 2.15 and 4.0 MEV

1) DATA1=LEVEL DENSITY PARAMETER A IN THE BACKSHIFTED FERMI GAS FORMULA.
2) DATA2=PARAMETER DEL IN THE BACKSHIFTED FERMI GAS FORMULA.
3) DATA3=NUMBER OF DISCRETE LEVES THAT ARE EXPLICITLY INCLUDED IN THE CALCULATION OF THE TRANSMISSION COEFFICIENTS.
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Last update of this script: April 12, 2006. Contact address: darpe-admin@jcprg.org