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Separator of primary and signal electrons for very low energy SEM

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Czechoslovak Journal of Physics Aims and scope

Abstract

High resolution can be obtained in the scanning electron microscope (SEM) for a very low landing energy of electrons, even for that below 50 eV, when a cathode lens is used with the specimen as a cathode held at a high negative potential but the detection of signal electrons is totally different compared with classical SEM. Primary electrons with an energy of the order of tens of keV are decelerated in the field of the cathode lens to a very low landing energy and signal electrons originating in the specimen are accelerated and collimated by the same field to a narrow beam with an electron energy nearly the same as that of the primary beam. To detect these signal electrons we must deflect them from the optical axis without deteriorating the properties of the primary beam. The design of a novel type of separator of the primary and signal electrons consisting of two stages, each of them formed by the electric and magnetic crossed fields, is presented, together with calculated trajectories for both primary and signal electrons.

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Authors and Affiliations

  1. Institute of Scientific Instruments, Czech Acad. Sci., Královopolská 147, 612 64, Brno, Czech Republic

    D. Pejchl, I. Müllerová & L. Frank

  2. Delong Instruments Ltd., Bulharská 48, 612 00, Brno, Czech Republic

    V. Kolařík

Authors
  1. D. Pejchl
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  2. I. Müllerová
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  3. L. Frank
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  4. V. Kolařík
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Additional information

For computations of fields and trajectories, the software package of the Delft Particle Optics Foundation developed by Dr. B. Lencová and Dr. G. Wisselink [10] was used. The design was consulted with Dr. M. Lenc.

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Pejchl, D., Müllerová, I., Frank, L. et al. Separator of primary and signal electrons for very low energy SEM. Czech J Phys 44, 269–276 (1994). https://doi.org/10.1007/BF01694491

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  • DOI: https://doi.org/10.1007/BF01694491

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