Scintillation SE detector for variable pressure scanning electron microscopes

Abstract: Key words. Scintillation detector, secondary electrons detection, variable pressure scanning electron microscope. SummaryWe present results obtained with a new scintillation detector of secondary electrons for the variable pressure scanning electron microscope. A detector design is based on the positioning of a single crystal scintillator within a scintillator chamber separated from the specimen chamber by two apertures. This solution enables us to decrease the pressure to several Pa in the scintillator chambe… Show more

“…electron detection system that allows recording the sample's image in different contrast modes [8]. Monocrystalline backscattered electron detector incorporating a YAG (Yttrium Aluminum Garnet) of a new type can change the contrast of the image by changing the voltage on the electrodes.…”

Influence of Critical Flow in the Differentially Pumped Chamber AQUASEM

“…electron detection system that allows recording the sample's image in different contrast modes [8]. Monocrystalline backscattered electron detector incorporating a YAG (Yttrium Aluminum Garnet) of a new type can change the contrast of the image by changing the voltage on the electrodes.…”

Influence of Critical Flow in the Differentially Pumped Chamber AQUASEM

“…SEM condemns samples to be destroyed so that further analysis is not possible (e.g., for molecular study or depositing as type material in a museum). Environmental scanning electron microscopy (ESEM) based on new methods (Neděla 2010;Neděla et al, 2015) and instrumentation (Jirák et al, 2010) can be used for the advanced study of parasites in their native state. It was shown by Tihlaříková, Neděla, and Shiojiri (2013) in a study of surviving mites.…”

Ciscem 2014

“…Danilatos developed an environmental SEM with a specimen chamber pressure of 6000 Pa or more by using differential pumping, and realizing control of the specimen chamber pressure by introducing various gases including water vapor [ 5 ]. Performance of the environmental SEM has been further improved by the development of a new detector [ 6 ]. Danilatos also developed an atmospheric pressure scanning electron microscope (ASEM) capable of observing specimen under atmospheric pressure using SEM by optimizing the configuration of the exhaust system and the detector [ 7 ].…”

Observation of wet specimens sensitive to evaporation using scanning electron microscopy