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4He Atoms Incident on a Superfluid 4He Slab: Quantum Sticking, Scattering and Transmission

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Abstract

We present the results of a microscopic theory of the scattering, transmission, and sticking of 4 He atoms impinging on a zero temperature 4 He slab at near normal incidence. The theory includes coupling between different modes and allows for inelastic processes. The present work focuses on the elastic reflection and transmission of a 4 He atom in the sense that we examine these intensities for atoms which have the same energy as the incident atoms. We find a considerable loss of total intensity due to scattering into multiple excitations. The reflected signal is in qualitative and semi-quantitative agreement with experimental results for 4 He atoms scattered from the surface of bulk helium. The transmission intensity — which has not been measured — shows a very strong energy dependence. Moreover, we show that this dependence is substantially different from the Feynman level theory, which doesn't permit the decay of the single excitation into multiple excitations, and thus cannot describe a reduction in total intensity. In our theory, the major source of decay of elastic transmission and reflection (i.e., sticking) is from the production of ripplons at the liquid-vacuum interfaces.

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Author notes

  1. C. E. Campbell

    Present address: School of Physics and Astronomy, University of Minnesota, Minneapolis, Mn, 55455, USA

Authors and Affiliations

  1. Institut für Theoretische Physik, Johannes Kepler Universität, A 4040 Linz, Austria

    C. E. Campbell & E. Krotscheck

  2. Department of Physical Sciences/Theoretical Physics, University of Oulu, FIN-90570, Oulu, Finland

    M. Saarela

Authors
  1. C. E. Campbell
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  2. E. Krotscheck
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  3. M. Saarela
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Campbell, C.E., Krotscheck, E. & Saarela, M. 4He Atoms Incident on a Superfluid 4He Slab: Quantum Sticking, Scattering and Transmission. Journal of Low Temperature Physics 113, 519–524 (1998). https://doi.org/10.1023/A:1022568615857

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  • DOI: https://doi.org/10.1023/A:1022568615857

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