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Entry No. D0976

M.C.Hermida¹,M.Ruiz¹,M.L.Cescato¹,J.L.Foster-Jr^2,3, F.Krmpotic^1,4
Univ.de Sao Paulo, Sao Paulo¹
University of Notre Dame, Notre Dame, IN²
United States of America³
Universidad de La Plata, Buenos Aires⁴
Physical Review, Part C, Nuclear Physics29(1984)64

130TE(P,P) REACTION ON ANALOG RESONANCES

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Data File Physical quantities Reaction(s) Energies

1 * THTC DSIGMA/DOMEGA⁵⁾
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4 130TE(P,P)130TE; 7.5 MEV
2 * THTC DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4 130TE(P,P)130TE; 7.5 MEV
3 * THTC DSIGMA/DOMEGA⁵⁾
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4 130TE(P,P)130TE; 14 MEV
4 * THTC DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4 130TE(P,P)130TE; 14 MEV
5 * THTC DSIGMA/DOMEGA⁵⁾
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4 130TE(P,P)130TE; 10.289 MEV
6 * THTC DSIGMA/DOMEGA⁵⁾
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4 130TE(P,P)130TE; 10.544 MEV
7 * THTC DSIGMA/DOMEGA⁵⁾
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4 130TE(P,P)130TE; 10.619 MEV
8 * THTC DSIGMA/DOMEGA⁵⁾
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4 130TE(P,P)130TE; 11.004 MEV
9 * THTC DSIGMA/DOMEGA⁵⁾
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4 130TE(P,P)130TE; 8.038 MEV
10 * THTC DSIGMA/DOMEGA⁵⁾
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4 130TE(P,P)130TE; 8.346 MEV
11 * THTC DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4 130TE(P,P)130TE; 8.038 MEV
12 * THTC DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4 130TE(P,P)130TE; 8.346 MEV
13 * THTC DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4 130TE(P,P)130TE; 10.289 MEV
14 * THTC DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4 130TE(P,P)130TE; 10.544 MEV
15 * THTC DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4 130TE(P,P)130TE; 10.619 MEV
16 * THTC DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4 130TE(P,P)130TE; 11.004 MEV
17 * INC-ENGY-LAB V RR AR WS RIS AIS VSO RRSO ARSO RC
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; RC: Radius of pot. of Coulomb type #10; 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 130TE(P,P)130TE; between 7.5 and 14 MEV
18 * INC-ENGY-LAB DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; INC-ENGY-LAB: Incident energy in lab. system #3 130TE(P,P)130TE; between 7.856 and 8.497 MEV
19 * INC-ENGY-LAB DSIGMA/DOMEGA
DSIGMA/DOMEGA: dsigma/dOmega #1; INC-ENGY-LAB: Incident energy in lab. system #3 130TE(P,P)130TE; between 9.716 and 10.784 MEV
20 * RESN-ENGY ENGY⁶⁾ J-PI TOT-WDTH PART-WDTH⁷⁾ PART-WDTH⁸⁾ PART-WDTH⁹⁾ PART-WDTH¹⁰⁾ PART-WDTH¹¹⁾
ENGY: Energy; PART-WDTH: Partial width; RESN-ENGY: Resonance energy; TOT-WDTH: Total level width 130TE(P,P)130TE; between 7.5 and 14 MEV
21 * RESN-ENGY ENGY⁶⁾ J-PI TOT-WDTH PART-WDTH⁷⁾ PART-WDTH¹²⁾ PART-WDTH¹³⁾ PART-WDTH¹⁴⁾
ENGY: Energy; PART-WDTH: Partial width; RESN-ENGY: Resonance energy; TOT-WDTH: Total level width 130TE(P,P)130TE; between 7.5 and 14 MEV
22 * J-PI EXC-ENGY¹⁵⁾ SPEC-AMPL¹⁶⁾ SPEC-AMPL¹⁷⁾ SPEC-AMPL¹⁸⁾ SPEC-AMPL¹⁹⁾ SPEC-AMPL²⁰⁾
EXC-ENGY: Excitation energy (of the final state) #2; SPEC-AMPL: Spectroscopic amplitude 130TE(P,P)130TE; between 7.5 and 14 MEV
23 * J-PI EXC-ENGY¹⁵⁾ SPEC-AMPL¹⁶⁾ SPEC-AMPL²¹⁾ SPEC-AMPL²²⁾ SPEC-AMPL²³⁾ SPEC-AMPL²⁴⁾ SPEC-AMPL²⁰⁾
EXC-ENGY: Excitation energy (of the final state) #2; SPEC-AMPL: Spectroscopic amplitude 130TE(P,P)130TE; between 7.5 and 14 MEV

5) RUTHERFORD RATIO
6) ENGY=RESONANCE ENERGY(C.M.)-INCIDENT CENTER OF MASS ENERGY
7) P(0)
8) P(1)*(1/2-)
9) P(1)*(3/2-)
10) P(1)*(5/2-)
11) P(1)*(7/2-)
12) P(1)*(1/2+)
13) P(1)*(3/2+)
14) P(1)*(5/2+)
15) EXCITATION ENERGY OF THE PARENT STATE
16) J*0+
17) S1/2*2+
18) D3/2*2+
19) D5/2*2+
20) TOTAL
21) P1/2*2+
22) P3/2*2+
23) F5/2*2+
24) F7/2*2+

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Last update of this script: April 12, 2006. Contact address: darpe-admin@jcprg.org

Data	File	Physical quantities	Reaction(s)	Energies
1	*	THTC DSIGMA/DOMEGA⁵⁾ DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4	130TE(P,P)130TE;	7.5 MEV
2	*	THTC DSIGMA/DOMEGA DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4	130TE(P,P)130TE;	7.5 MEV
3	*	THTC DSIGMA/DOMEGA⁵⁾ DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4	130TE(P,P)130TE;	14 MEV
4	*	THTC DSIGMA/DOMEGA DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4	130TE(P,P)130TE;	14 MEV
5	*	THTC DSIGMA/DOMEGA⁵⁾ DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4	130TE(P,P)130TE;	10.289 MEV
6	*	THTC DSIGMA/DOMEGA⁵⁾ DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4	130TE(P,P)130TE;	10.544 MEV
7	*	THTC DSIGMA/DOMEGA⁵⁾ DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4	130TE(P,P)130TE;	10.619 MEV
8	*	THTC DSIGMA/DOMEGA⁵⁾ DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4	130TE(P,P)130TE;	11.004 MEV
9	*	THTC DSIGMA/DOMEGA⁵⁾ DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4	130TE(P,P)130TE;	8.038 MEV
10	*	THTC DSIGMA/DOMEGA⁵⁾ DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4	130TE(P,P)130TE;	8.346 MEV
11	*	THTC DSIGMA/DOMEGA DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4	130TE(P,P)130TE;	8.038 MEV
12	*	THTC DSIGMA/DOMEGA DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4	130TE(P,P)130TE;	8.346 MEV
13	*	THTC DSIGMA/DOMEGA DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4	130TE(P,P)130TE;	10.289 MEV
14	*	THTC DSIGMA/DOMEGA DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4	130TE(P,P)130TE;	10.544 MEV
15	*	THTC DSIGMA/DOMEGA DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4	130TE(P,P)130TE;	10.619 MEV
16	*	THTC DSIGMA/DOMEGA DSIGMA/DOMEGA: dsigma/dOmega #1; THTC: Scattering angle theta in c.m. system #4	130TE(P,P)130TE;	11.004 MEV
17	*	INC-ENGY-LAB V RR AR WS RIS AIS VSO RRSO ARSO RC 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; RC: Radius of pot. of Coulomb type #10; 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	130TE(P,P)130TE;	between 7.5 and 14 MEV
18	*	INC-ENGY-LAB DSIGMA/DOMEGA DSIGMA/DOMEGA: dsigma/dOmega #1; INC-ENGY-LAB: Incident energy in lab. system #3	130TE(P,P)130TE;	between 7.856 and 8.497 MEV
19	*	INC-ENGY-LAB DSIGMA/DOMEGA DSIGMA/DOMEGA: dsigma/dOmega #1; INC-ENGY-LAB: Incident energy in lab. system #3	130TE(P,P)130TE;	between 9.716 and 10.784 MEV
20	*	RESN-ENGY ENGY⁶⁾ J-PI TOT-WDTH PART-WDTH⁷⁾ PART-WDTH⁸⁾ PART-WDTH⁹⁾ PART-WDTH¹⁰⁾ PART-WDTH¹¹⁾ ENGY: Energy; PART-WDTH: Partial width; RESN-ENGY: Resonance energy; TOT-WDTH: Total level width	130TE(P,P)130TE;	between 7.5 and 14 MEV
21	*	RESN-ENGY ENGY⁶⁾ J-PI TOT-WDTH PART-WDTH⁷⁾ PART-WDTH¹²⁾ PART-WDTH¹³⁾ PART-WDTH¹⁴⁾ ENGY: Energy; PART-WDTH: Partial width; RESN-ENGY: Resonance energy; TOT-WDTH: Total level width	130TE(P,P)130TE;	between 7.5 and 14 MEV
22	*	J-PI EXC-ENGY¹⁵⁾ SPEC-AMPL¹⁶⁾ SPEC-AMPL¹⁷⁾ SPEC-AMPL¹⁸⁾ SPEC-AMPL¹⁹⁾ SPEC-AMPL²⁰⁾ EXC-ENGY: Excitation energy (of the final state) #2; SPEC-AMPL: Spectroscopic amplitude	130TE(P,P)130TE;	between 7.5 and 14 MEV
23	*	J-PI EXC-ENGY¹⁵⁾ SPEC-AMPL¹⁶⁾ SPEC-AMPL²¹⁾ SPEC-AMPL²²⁾ SPEC-AMPL²³⁾ SPEC-AMPL²⁴⁾ SPEC-AMPL²⁰⁾ EXC-ENGY: Excitation energy (of the final state) #2; SPEC-AMPL: Spectroscopic amplitude	130TE(P,P)130TE;	between 7.5 and 14 MEV