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Neutron tunneling in nanostructured systems: isotopical effect

Published online by Cambridge University Press:  26 February 2018

A. Matiwane*
Affiliation:
Nanosciences African Network (NANOAFNET), iThemba LABS-National Research Foundation, 1 Old Faure Road, Somerset West, Western Cape 7129, PO Box 722, South Africa UNESCO-UNISA South Africa Chair in Nanosciences-Nanotechnology, College of Graduate Studies, Muckleneuk, PO Box 392, Pretoria, South Africa Physics Dept., University of South Africa, Muckleneuk ridge, PO Box 392, Pretoria, South Africa
J. Sackey
Affiliation:
Nanosciences African Network (NANOAFNET), iThemba LABS-National Research Foundation, 1 Old Faure Road, Somerset West, Western Cape 7129, PO Box 722, South Africa UNESCO-UNISA South Africa Chair in Nanosciences-Nanotechnology, College of Graduate Studies, Muckleneuk, PO Box 392, Pretoria, South Africa Physics Dept., University of South Africa, Muckleneuk ridge, PO Box 392, Pretoria, South Africa
M.L. Lekala
Affiliation:
Physics Dept., University of South Africa, Muckleneuk ridge, PO Box 392, Pretoria, South Africa
A. Gibaud
Affiliation:
Nanosciences African Network (NANOAFNET), iThemba LABS-National Research Foundation, 1 Old Faure Road, Somerset West, Western Cape 7129, PO Box 722, South Africa UNESCO-UNISA South Africa Chair in Nanosciences-Nanotechnology, College of Graduate Studies, Muckleneuk, PO Box 392, Pretoria, South Africa Laboratoire de Physique de L’Etat Condense’, (UMR 6087 CNRS) Universite du Maine, 72085Le Mans Cedex, France
M. Maaza
Affiliation:
Nanosciences African Network (NANOAFNET), iThemba LABS-National Research Foundation, 1 Old Faure Road, Somerset West, Western Cape 7129, PO Box 722, South Africa UNESCO-UNISA South Africa Chair in Nanosciences-Nanotechnology, College of Graduate Studies, Muckleneuk, PO Box 392, Pretoria, South Africa Physics Dept., University of South Africa, Muckleneuk ridge, PO Box 392, Pretoria, South Africa
*
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Abstract

This contribution reports, to the best of our knowledge, for the first time on the neutron tunneling phenomenon in nickel isotopes based nanostructured. More accurately, 58Ni-62Ni-58Ni thin films Fabry-Perot resonator configuration exhibited several tunneling resonances. In total, there were 7 tunneling resonances. These tunneling resonances manifest themselves via sharp dips in the total reflection plateau due to quasi-bound states in the nanostructured isotopic based nickel thin film Fabry-Perot resonator.

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Articles
Copyright
Copyright © Materials Research Society 2018 

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References

Werner, S.A., Collela, R., Overhauser, A.W., Eagen, C.F., Phys.Rev.Lett.35 (1975) 1053.CrossRefGoogle Scholar
Werner, S.A., Klein, A.G., in Neutron Scattering, Eds Skold, K., Price, D.L., Methods of Experimental Physics, Vol. 23 (Academic Press, New York, (1986) p. 303Google Scholar
Shull, C.G., Phys. Rev. 179 (1969) 752.CrossRefGoogle Scholar
Rauch, H., Neutron Matter Quantum Optics, Foundations Physics (2012), 42, p.760-777CrossRefGoogle Scholar
Maier-Leibnitz, H., Springer, T., Z. Phys. 167 (1962) 386.CrossRefGoogle Scholar
Fermi, E., Zinn, W.H., Phys. Rev. 70 (1946) 103;Google Scholar
Landkammer, F.J., Z. Phys. 189 (1966) 113.CrossRefGoogle Scholar
Sears, V.F, Oxford, Can. J. Phys. 56, (1978) 1261CrossRefGoogle Scholar
Kurz, H., Rauch, H., Z. Phys. 220 (1969) 419CrossRefGoogle Scholar
Rauch, H., Treimer, W., Bonse, U., Phys. Lett. A 47 (1974)CrossRefGoogle Scholar
Rauch, H., Badurek, G., Zeilinger, A., Bauspiess, W., Bonse, U., Phys. Rev. D 14 (1977) 1177Google Scholar
Maier-Leibnitz, H., Springer, T., J. Nucl. Energy 17 (1963) 217Google Scholar
Steyerl, A., Ebisawa, T., Steinhauser, K.A., Utsuro, Z., Z. Phys.B 41 (1981) 283CrossRefGoogle Scholar
Rauch, H., Werner, S.A., Neutron Interferometry. Clarendon, Oxford (2000)Google Scholar
Maaza, M., Pardo, B., Malik, S., Sella, C., Chernenko, L.P., Korneev, D.A., Phys. Lett. A 218 (1996) 312318CrossRefGoogle Scholar
Maaza, M., Pardo, B., Bridou, F., Nucl. Instr. Meths. Phys. Res. A326 (1993) 531537CrossRefGoogle Scholar
Maaza, M., Pardo, B., Phys. Lett. A 181 (1993) 276282CrossRefGoogle Scholar
Maaza, M., Pardo, B., Chauvineau, J.P., Raynal, A., Bridou, F., Menelle, A., Phys. Lett. A 223 (1996) 145CrossRefGoogle Scholar
Maaza, M., Pardo, B., Chauvineau, J.P., Bridou, F., Menelle, A., Phys. Lett. A 235 (1997) 19CrossRefGoogle Scholar
Maaza, M., Pardo, B., Bridou, F., J. App. Cryst. 26 (1993) 327CrossRefGoogle Scholar
Maaza, M., Pardo, B., Opt. Commun. 142 (1997) 84CrossRefGoogle Scholar
Croce, P., Pardo, B., Nouv. Rev. Opt. Appl. 1 (4) (1970) 229CrossRefGoogle Scholar
Steinhauser, K.A., Steyerl, A., Schekenhofer, H., Malik, S.S., Phys. Rev. Lett. 44 (1980) 1306CrossRefGoogle Scholar
Feng, Y.P., Majkrzack, C.F., Sinha, SK., Wiesler, D.G., Zhang, H. and Deman, H.W.. Phys. Rev. B 49 (1994) 10814.CrossRefGoogle Scholar
Sinha, S.K.. Tolan, M., Vacca, G., Li, Z.. Rafailovich, M., Sokolov, J., Lorenz, H., Kotthaus, J.P.. Feng, Y.P., Gtiibel, Cl. and Abernathy, D., Proc. MRS Symp. On Molecules in confined geometries, eds. Drake, J.M., Klopfter, Y. and Koppelman, R. (1995).Google Scholar
Norton, L.J., Kramer, E.J., Jones, R.A.L., Bates, F.S., Brown, H.R., Felcher, G.P., Kleb, R., J. Phys. II 4 (1994) 367376.Google Scholar