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A diagram showing how a scanning helium microscope works. A beam is formed by a gas expansion and collimation through a skimmer and pinhole. The beam is then incident on the sample, where the gas is scattered and collected through a detector aperture. The scattered gas is then detected using a mass spectrometer.
A scanning helium ion microscope (SHIM, HeIM or HIM) is an imaging technology based on a scanning helium ion beam. [2] Similar to other focused ion beam techniques, it allows to combine milling and cutting of samples with their observation at sub-nanometer resolution.
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Scanning helium microscope may refer to: . Scanning helium microscopy; Scanning Helium Ion Microscope; Atomic nanoscope, which was proposed and discussed in the literature, but is not yet competitive with optical microscope, electron microscope, Scanning Helium Ion Microscope and various scanning probe microscopes
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Field ion microscope image of the end of a sharp platinum needle. Each bright spot is a platinum atom. The field-ion microscope (FIM) was invented by Müller in 1951. [1] It is a type of microscope that can be used to image the arrangement of atoms at the surface of a sharp metal tip.
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