^natCu(a,x)⁶⁵Zn

Bibliography of experimental data

 

Up to an energy of 50 MeV, twenty-one publications with experimental data were identified in the literature [85, 137, 221, 280, 291, 312-315, 319-321, 323, 328-330, 333-337], and are shown with uncertainties in Fig. of "All data" link. Nine datasets were deselected for the further analysis; the reason for deselecting is indicated after the reference item. Selected experimental data are presented in Fig. of "Selected" link. The data points below 16 MeV of Hermanne et al. (2015) [315], Levkovski et al. (1991) [85] and Tárkányi et al. (2000) [328] were also deselected in the fitting process. The recommended values and the uncertainty of the fitting procedure are in the figure under the link of "Recommended".

Yields were calculated from the recommended cross sections.

 

[85] V.N. Levkovskij,

Middle Mass Nuclides (A=40-100) Activation Cross Sections by Medium Energy (E=10-

50 MeV) Protons and a-particles (Experiments and Systematics)

INTER-VESI, Moscow, (1991); EXFOR A0510.

 

[137] M. Shahid, K. Kim, H. Naik, M. Zaman, S.C. Yang, G.N. Kim,

Measurement of excitation functions in proton induced reactions on natural copper from their threshold to 43 MeV

Nucl. Instrum. Methods Phys. Res. B342, 305-313 (2015); EXFOR D7015009.

 

[221] S. Takács, B. Király, F. Tárkányi, A. Hermanne,

Evaluated activation cross sections of longer-lived radionuclides produced by deuteron induced reactions on natural titanium

Nucl. Instrum. Methods Phys. Res. B262, 7–12 (2007); EXFOR D4168.

 

[280] E. Lebowitz and M.W. Greene,

An Auxiliary Cyclotron Beam Monitor

Int. J. Appl. Radiat. Isot. 21, 625–627 (1970); EXFOR B0154.

Deselected: only one point, value is too low

 

[291] S.S. Rattan and R.J. Singh,

Alpha Particle Induced Fission of ²⁰⁹Bi and ^63,65Cu

Radiochim. Acta 39, 61– 63 (1986); EXFOR A0353.

Deselected: values are too low, noted as 1mb in EXFOR

 

[312] R. Adam Rebeles, A. Hermanne, P. Van den Winkel, F. Tárkányi, S. Takács, L. Daraban,

Alpha Induced Reactions on ¹¹⁴Cd and ¹¹⁶Cd: An Experimental Study of Excitation Functions

Nucl. Instrum. Methods Phys. Res. B266, 4731–4737 (2008)

 

[313] H.D. Bhardwaj,A.K. Gautam,R. Prasad,

Measurement and Analysis of Excitation Functions for Alpha-Induced Reactions in Copper

Pranama J. Phys. 31, 109–123 (1988); EXFOR: A0465

 

[314] O. Bonesso, M.J. Ozafran, H.O. Mosca, M.E. Vazquez, O.A. Capurro and S. J. Nasiff,

Study of Preequilibrium Effects on a-Induced Reactions on Copper

J. Radioanal. Nucl. Chem. 152, 189–197 (1991).

Deselected: values are too low

 

[315] A. Hermanne, R. Adam Rebeles, F. Tárkányi, S. Takács,

Alpha Particle Induced Reactions on ^natCr up to 39MeV: Experimental Cross-sections, Comparison with Theoretical Calculations and Thick Target Yields for Medically Relevant ^52gFe Production

Nucl. Instrum. Methods Phys. Res. B356–357, 28–41 (2015).

 

[319] K.G. Porges,

Excitation Functions of Silver and Copper,

Phys. Rev. 101, 225 (1956); EXFOR R0039.

Deselected: values are too low

 

[320] N.T. Porile and D.L. Morrison,

Reactions of ⁶³Cu and ⁶⁵Cu with Alpha Particles

Phys. Rev. 116, 1193 (1959); EXFOR B0156.

Deselected: energy shift

 

[321] I.A. Rizvi, M.A. Ansari, R.P. Gautam, R.K.Y. Singh, A.K. Chaubey,

Excitation Functions Studies of (a,xpyn) Reactions for ^63,65Cu and Pre-Equilibrium Effect

J. Phys. Soc. Japan 56, 3135–3144 (1987).

Deselected: values are too low at higher energy

 

[323] N.L. Singh, Patel, Somayalulu, Chintalapudi,

Analysis of the Excitation Functions of (a,xnyp) Reactions on natural Copper

Pramana J. Phys. 42, 349–363 (1994); Exfor D0099

Deselected: values are too low at higher energy

 

[328] F. Tárkányi, F. Szelecsényi, S. Takács, A. Hermanne, M. Sonck, A. Thielemans, M.G. Mustafa, Yu. Shubin, Zhuang Youxiang,

New Experimental Data, Compilation and Evaluation for the ^natCu(a,x)⁶⁶Ga, ^natCu(a,x)⁶⁷Ga and ^natCu(a,x)⁶⁵Zn Monitor Reactions,

Nucl. Instrum. Methods Phys. Res. B168, 144–168 (2000); EXFOR D4085.

 

[329] O.A. Zhukova, V.I. Kanasevich, S.V. Laptev, G.P. Chursin,

Excitation Functions of a-Particle Induced Reactions on Copper Isotopes at Energies up to 38 MeV,

Izv. Akad. Nauk. Kaz. Ssr. Ser. Fiz. -Mat. 4, 1 (1970).

 

[330] J. Zweit, H. Sharma and S. Downey,

Production of ⁶⁶Ga, a Short-lived Positron Emitting Radionuclide

Appl. Radiat. Isot. 38, 499–501 (1987).

Deselected: values are too low

 

[333] A. Hermanne, F. Tárkányi, S. Takács, Z. Szucs, Yu.N. Shubin, A.I. Dityuk,

Experimental Study of the Cross sections of Alpha-particle Induced Reactions on ²⁰⁹Bi,

Appl. Radiat. Isot. 63, 1–9 (2005); EXFOR O1272.

 

[334] F.S. Houck and J.M. Miller,

Reactions of Alpha Particles with Iron-54 and Nickel-58

Phys. Rev. 123, 231 (1961); EXFOR P0058.

 

[335] S.Y. Lin and J.M. Alexander,

Reactions of ²³⁷Np with ⁴He Near the Interaction Barrier

Phys. Rev. C16, 688 (1977); EXFOR B0088.

 

[336] F.H. Ruddy,

The Formation of the Compound Nucleus ⁶⁸Ge

dissertation, Simon Fraser University, Canada, 1963.

Deselected: data scattered at low energy

 

[337] F. Tárkányi, F. Ditrói, S. Takács, A. Hermanne,

Measurement and Evaluation of the Excitation Functions for Alpha Particle Induced Nuclear Reactions on Nb and Pt

unpublished results, (2007)

 

 

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Updated: Aug. 2017.