1. The use of helium gas to reduce beam scattering in high vapour pressure scanning electron microscopy applications
- Author
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V. N. E. Robinson and S. J. Stowe
- Subjects
Chemistry ,Scattering ,Scanning electron microscope ,business.industry ,chemistry.chemical_element ,Atomic and Molecular Physics, and Optics ,Optics ,Scanning transmission electron microscopy ,Electron beam-induced deposition ,business ,Instrumentation ,Environmental scanning electron microscope ,Electron scattering ,Beam (structure) ,Helium - Abstract
Both image quality and the accuracy of x-ray analysis invariable pressure scanning electron microscopes (VPSEMs) are often limited by the spread of the primary electronbeam due to scattering by the introduced gas. The degree of electron scattering depends partly on the atomic number Z of the gas, and the use of a low Z gas such as helium should reduce beam scattering and enhance image quality. Using anuncoated test sample of copper iron sulphide inclusions in calcium fluorite, we show that the reduction in beam scatter produced by helium is more than sufficient to compensate for its reduced efficiency of charge neutralisation. The relative insensitivity to pressure of x-ray measurements in a helium atmosphere compared with air, and the consequent ability to work over a wider range of working distances, pressures, and voltages, make helium potentially the gas of choice for many routine VPSEM applications.
- Published
- 1998
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