Abstract
Fast ions are scattered from magnetized surfaces under grazing angles of incidence. During the interaction with the surface charge exchange is effective and results in a population of stable and excited atomic terms. This capture of electrons is characterized by anisotropic distributions of atomic orbital angular momenta and in addition — for magnetized targets — by anisotropic distributions of electronic spins. We will discuss in some detail, how these anisotropic distributions can be studied via the analysis of the state of polarization of the fluorescent light, emitted in electronic transitions from excited terms of free atoms after the impact with the surface. We show that a defined variation of the magnetization of the target affects the polarization of the emitted light in a characteristic way, which allows to deduce the electronic spin polarization of the atoms. The method implies some perspectives with respect to the study of magnetic properties of the vacuum-solid interface well above the topmost layer of surface atoms.
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Kirschner, J.: J. Appl. Phys.64, 5915 (1988)
Kupfer, E., Gabriel, H., Schröder, H.: Z. Phys. A — Atoms and Nuclei283, 321 (1977)
Rau, C., Sizmann, R.: Phys. Lett. A43, 317 (1973); Rau, C.: J. Magn. Magn. Mater.30, 141 (1982); Sizmann, R.: Nucl. Instrum. Methods132, 523 (1976)
Winter, H., Hagedorn, H., Zimny, R., Nienhaus, H., Kirschner, J.: Phys. Rev. Lett.62, 296 (1989); Zimny, R., Hagedorn, H., Winter, H., Kirschner, J.: J. Appl. Phys. A47, 77 (1988)
Andrä, H.J., Plöhn, H.J., Fröhling, R., Gaupp, A.: Z. Phys. A — Atoms and Nuclei281, 15 (1977); Winter, H., Zimny, R.: Hyperfine Interact.22, 237 (1985)
Zavoiskii, E.K.: Sov. Phys. JETP55, 378 (1957)
Kaminski, M.: Phys. Rev. Lett.23, 819 (1969)
Feldmann, L.C., Mingay, D.W., Sellschop, J.P.F.: Rad. Effects13, 145 (1972)
Newns, D.M.: Comments Cond. Mat. Phys.14, 295 (1989)
Los, J., Geerlings, J.J.C.: Phys. Rep.190, 133 (1990)
Winter, H., Zimny, R.: Coherence in atomic collision physics. Beyer, H.J., Blum, K., Hippler, R. (eds.), p. 283. New York: Plenum Press 1988
Burgdörfer, J., Kupfer, E., Gabriel, H.: Phys. Rev. A35, 4963 (1987)
Thumm, U., Briggs, J.: Nucl. Instrum. Methods B43, 471 (1989)
Brako, R.: Phys. Rev. B30, 5629 (1984)
Brako, R., Winter, H., Newns, D.M.: Europhys. Lett.7, 213 (1988)
Winter, H.: Z. Phys. D — Atoms, Molecules and Clusters17, 109 (1990); Phys. Lett. A148, 258 (1990)
Blum, K.; Density matrix theory and applications. New York: Plenum Press 1981
Omont, A.: Progr. Quantum Electron.5, 69 (1977)
Bosse, J., Gabriel, H.: Z. Phys.266, 283 (1974)
Gabriel, H., Bosse, J.: Angular correlations in nuclear disintegration. Kruyten, H. van, Nooijen, B. van (eds.), p. 394. Rotterdam: University Press 1971
Andrä, H.J.: Progress in atomic spectroscopy. Hanle, W., Kleinpoppen, H. (eds.), p. 829. New York: Plenum Press 1979
Rotenberg, M., Bivins, R., Metropolis, N., Wooten, Jr., J.K.: The 3j- and 6j-symbols. Cambridge, Mass.: MIT Press 1959
Sobelman, I.I. (ed.): Atomic spectra and radiative transitions. Springer Series in Chemical Physics, vol. 1. Berlin, Heidelberg, New York: Springer 1979
Biedenharn, L.C.: J. Math. Phys.31, 289 (1953)
Elliott, J.P.: Proc. R. Soc. London Ser. A218, 345 (1953)
Hermann, H.W., Hertel, I.V.: Comments At. Mol. Phys.12, 61, 127 (1982)
Born, M., Wolf, E.: Principles of optics. 4th ed., p. 554. Oxford: Pergamon Press 1970
Andrä, H.J., Fröhling, R., Plöhn, H.J., Silver, J.D.: Phys. Rev. Lett.18, 1212 (1976)
Marsch, C., Winter, H.: Z. Phys. D — Atoms, Molecules and Clusters18, 25 (1991)
Andrä, H.J.: Phys. Lett. A54, 315 (1975)
Tolk, N.H., Tully, J.C., Kraus, J.S., Heiland, W., Neff, S.H.: Phys. Rev. Lett.41, 643 (1978)
Bader, S.D., Moog, E.R., Grünberg, P.: J. Magn. Magn. Mater.53, L295 (1986)
Hanle, W.: Z. Phys.30, 93 (1924)
Kirschner, J. (ed.): Polarized electrons at surfaces. Springer Tracts in Modern Physics, vol. 106. Berlin, Heidelberg, New York: Springer 1985
Desesquelles, J.: Thésè, Lyon 1970
Striganow, A.R., Sventitskii, N.S.: Tables of spectral lines of neutral and ionized atoms, p. 123–126. New York: Plenum Press 1968
Winter, H., Andrä, H.J.: Phys. Rev. A21, 581 (1980)
Winter, H.: Vacuum39, 375 (1989)
Schröder, H., Kupfer, E.: Z. Phys. A — Atoms and Nuclei279, 13 (1976)
Schröder, H.: Z. Phys. A — Atoms and Nuclei284, 125 (1978)
Fröhling, R., Andrä, H.J.: Phys. Lett. A97, 375 (1983)
Berry, H.G., Hallin, R., Sjödin, R., Gaillard, M.L.: Phys. Lett. A50, 191 (1974)
Winter, H., Kirschner, J.: (to be published)
Feder, R. (ed.): Polarized electrons in surface physics. Singapore: World Scientific 1985
Wimmer, A., Freeman, A.J., Krakauer, H.: Phys. Rev. B30, 3113 (1984)
Overbosch, E.G., Rasser, B., Tenner, A.D., Los, J.: Surf. Sci.92, 310 (1980)
Zimny, R., Nienhaus, H., Winter, H.: Radiat. Eff. Def. Solids109, 9 (1989)
Leuker, J., Winter, H.: (to be published)
Huber, C., Kirschner, J.: Private communication
Schlehberger, M., Närmann, A., Heiland, W., Huber, C., Kirschner, J.: Nucl. Instrum. Methods (1991) (in press)
Zimny, R., Miskovic, Z.L., Nedeljkovic, N.N., Nedeljkovic, L.D.: Surf. Sci.255, 135 (1991)
Winter, H.: Phys. Rev. Lett. (submitted)
Winter, H., Langheim, M., Schirmacher, A., Zimny, R., Andrä, H.J.: Phys. Rev. Lett.52, 1211 (1984)
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Winter, H. Capture of polarized electrons into excited terms of fast atoms during grazing surface collisions. Z Phys D - Atoms, Molecules and Clusters 23, 41–53 (1992). https://doi.org/10.1007/BF01436701
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DOI: https://doi.org/10.1007/BF01436701