Difference between revisions of "2004Egerton Damage"

Revision as of 13:44, 2 April 2009

Citation

Harauz G, van Heel M (1986) Exact filters for general geometry three dimensional reconstruction. Optik 73:146–156

Abstract

We review the various ways in which an electron beam can adversely affect an organic or inorganic sample during examination in an electron microscope. The effects considered are: heating, electrostatic charging, ionization damage (radiolysis), displacement damage, sputtering and hydrocarbon contamination. In each case, strategies to minimise the damage are identified. In the light of recent experimental evidence, we re-examine two common assumptions: that the amount of radiation damage is proportional to the electron dose and is independent of beam diameter; and that the extent of the damage is proportional to the amount of energy deposited in the specimen.

Keywords

Radiation damage

Links

Article http://www.ncbi.nlm.nih.gov/pubmed/15120123

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