2000
DOI: 10.1149/1.1394058
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Control of Arsenic Doping during Low Temperature CVD Epitaxy of Silicon (100)

Abstract: In situ arsenic doping during chemical vapor deposition (CVD) epitaxy of silicon is investigated. At low temperatures (around 700ЊC), a high arsenic concentration accumulates on the silicon surface. With a hydrogen bake (at 950ЊC) the surface concentration is significantly reduced and autodoping is inhibited. After the bake, the capping layer is grown at 700ЊC. At this temperature, the arsenic segregation, back to the surface, is suppressed. With this procedure, a relatively low baking temperature of 950ЊC is … Show more

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Cited by 16 publications
(17 citation statements)
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“…To obtain a sharp arsenic spike in the profile, a newly developed technique was applied. Hereby the in situ arsenic doping is accurately controlled during the entire epi-growth process [4], [5]. The growth conditions (gas pressures, deposition time, and temperature) are kept well within the specification of the CVD equipment and no exceptional accuracy is required of any parameter.…”
Section: Resultsmentioning
confidence: 99%
“…To obtain a sharp arsenic spike in the profile, a newly developed technique was applied. Hereby the in situ arsenic doping is accurately controlled during the entire epi-growth process [4], [5]. The growth conditions (gas pressures, deposition time, and temperature) are kept well within the specification of the CVD equipment and no exceptional accuracy is required of any parameter.…”
Section: Resultsmentioning
confidence: 99%
“…The major feature is that the well-known autodoping, related to arsenic, has been suppressed. The process is briefly described in Section II-B and a more detailed description is given in [2].…”
Section: A Device Fabricationmentioning
confidence: 99%
“…The top-layer is grown at 950 C and reduced pressure (60 torr). More details about this process are given in [2].…”
Section: B Epilayers With An Arsenic Spikementioning
confidence: 99%
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“…They are based on the (commercially available) Philips BLW-898 bipolar UHF linear power transistor, intended for linear amplification of signals in the 470 to 860 MHz frequency band. Experimental collector doping profiles were fabricated by using a newly developed epitaxy process that enables fabrication of sharp (50 nm wide) arsenic doped spikes [4], [5]. …”
mentioning
confidence: 99%