1994
DOI: 10.1002/sca.4950160207
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Contamination in a scanning electron microscope and the influence of specimen cooling

Abstract: Summary: Solutions of the stationary and timedependent equations of diffusion are presented for contamination when scanning a rectangular area in the scanning electron microscope (SEM). A method is described to record the thickness of the contamination layer by the signal of secondary or backscattered electrons and to measure the influence of electron current density, beam energy, and specimen cooling on the contamination rate.

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Cited by 66 publications
(44 citation statements)
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“…The initial temperature drop using LN2 is rapid, with the cold 119 finger quickly passing from 20°C to -50°C (see Figure 3a) preventing contaminate precipitation 120 keeping pace with temperature change. Given this, -27°C is a more accurate estimate of the 121 minimum temperature required for effective anticontamination, which is consistent with the 122 previous work by Hirsch et al (1994) and comparable to that of Heide (1963) It is unclear whether the carbon coat has an effect on the contamination rate or the temperature at 134 which minimum contamination is observed. However, the data shows a close agreement with that of 135 Hirsch et al (1994) for uncoated polished copper.…”
supporting
confidence: 81%
“…The initial temperature drop using LN2 is rapid, with the cold 119 finger quickly passing from 20°C to -50°C (see Figure 3a) preventing contaminate precipitation 120 keeping pace with temperature change. Given this, -27°C is a more accurate estimate of the 121 minimum temperature required for effective anticontamination, which is consistent with the 122 previous work by Hirsch et al (1994) and comparable to that of Heide (1963) It is unclear whether the carbon coat has an effect on the contamination rate or the temperature at 134 which minimum contamination is observed. However, the data shows a close agreement with that of 135 Hirsch et al (1994) for uncoated polished copper.…”
supporting
confidence: 81%
“…The typical analysis of the HOPG is carried out on the top layer at a distance from the edge but any existing contamination within the graphite gallery or on the underlayers while not visible could affect the response of the material to the electron beam. Investigations at cryoconditions are often used to reduce the contamination issue, Figure b,c show cryo‐LV SEM micrographs of HOPG at low and high magnification respectively. Contamination islands can still be observed across the whole of the surface on the fresh surface, they are seen on all the typical topographical features of HOPG such as steps (highlighted by orange arrows), terraces (highlighted by green arrows) and folds (highlighted by brown arrows.…”
Section: Resultsmentioning
confidence: 99%
“…Several published studies (Black, ; Harada et al ., ; Hren, ; Akishige, ; Hirsch et al ., ; Bruenger et al ., ) documented well that the origins of the contamination are both the sample itself and the vacuum system of the SEM. Although the pumping system is a major contributor to this problem, the history of the specimen prior to entering the vacuum system is also important.…”
Section: Charged Beam‐induced Sample Contaminationmentioning
confidence: 98%