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Secondary electrons

From Wikipedia, the free encyclopedia

Visualisation of a Townsend avalanche, which is sustained by the generation of secondary electrons in an electric field

Secondary electrons are electrons generated as ionization products. They are called 'secondary' because they are generated by other radiation (the primary radiation). This radiation can be in the form of ions, electrons, or photons with sufficiently high energy, i.e. exceeding the ionization potential. Photoelectrons can be considered an example of secondary electrons where the primary radiation are photons; in some discussions photoelectrons with higher energy (>50 eV) are still considered "primary" while the electrons freed by the photoelectrons are "secondary".

Mean free path of low-energy electrons. Secondary electrons are generally considered to have energies below 50 eV. The rate of energy loss for electron scattering is very low, so most electrons released have energies peaking below 5 eV(Seiler, 1983).

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Transcription

Applications

Secondary electrons are also the main means of viewing images in the scanning electron microscope (SEM). The range of secondary electrons depends on the energy. Plotting the inelastic mean free path as a function of energy often shows characteristics of the "universal curve" [1] familiar to electron spectroscopists and surface analysts. This distance is on the order of a few nanometers in metals and tens of nanometers in insulators.[2][3] This small distance allows such fine resolution to be achieved in the SEM.

For SiO2, for a primary electron energy of 100 eV, the secondary electron range is up to 20 nm from the point of incidence.[4][5]

See also

References

  1. ^ Zangwill, Andrew (1988). Physics at surfaces. Cambridge Cambridgeshire New York: Cambridge University Press. p. 21. ISBN 978-0-521-34752-5. OCLC 15855885.
  2. ^ Seiler, H (1983). "Secondary electron emission in the scanning electron microscope". Journal of Applied Physics. 54 (11). AIP Publishing: R1–R18. Bibcode:1983JAP....54R...1S. doi:10.1063/1.332840. ISSN 0021-8979.
  3. ^ Cazaux, Jacques (15 January 1999). "Some considerations on the secondary electron emission, δ, from e− irradiated insulators". Journal of Applied Physics. 85 (2). AIP Publishing: 1137–1147. doi:10.1063/1.369239. ISSN 0021-8979.
  4. ^ Schreiber, E.; Fitting, H.-J. (2002). "Monte Carlo simulation of secondary electron emission from the insulator SiO2". Journal of Electron Spectroscopy and Related Phenomena. 124 (1). Elsevier BV: 25–37. doi:10.1016/s0368-2048(01)00368-1. ISSN 0368-2048.
  5. ^ Fitting, H.-J.; Boyde, J.; Reinhardt, J. (16 January 1984). "Monte-Carlo Approach of Electron Emission from SiO2". Physica Status Solidi A. 81 (1). Wiley: 323–332. Bibcode:1984PSSAR..81..323F. doi:10.1002/pssa.2210810136. ISSN 0031-8965.
This page was last edited on 2 August 2023, at 16:24
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