This thesis reports the development of two rapid thermal annealing systems, one based on resistive heating of graphite strips, the second on heating from incoherent lamp radiation. Electrical activation studies of silicon implanted gallium arsenide has been used to compare the systems with those available commercially. It has been shown that commercial systems can yield temperature measurement errors in excess of 50° C. Furthermore, the systems have been used to investigate the electrical activation of silicon implants co-implanted with other ions into gallium arsenide, with a view to either, improving the activation of the silicon for high doses, or modifying the carrier profile shape for low doses. A factor of two improvement in the electrical activation of high dose silicon implants has been achieved by the co-implantation of phosphorus, with a reduction in the annealing temperature required to achieve a given activity also being observed. An alternative processing methodology is also proposed for through- nitride implantation. Phosphorus implants have also been used to "pre-amorphise" substrates to prevent ion channelling. Providing the damage is maintained below a certain level, improvements in profile shape can be obtained. Other compensation techniques using boron and carbon implants have also been investigated. Boron has been demonstrated to provide improved carrier activation for low implant doses, with thermally stable profile modification capability as the dose is increased. The electrical activation of single carbon implants (40% maximum) is below the level of compensation of silicon implants (approximately 90%) co-implanted with carbon. This in turn means carbon is excellent for profile modification as no p-type layer is created beyond the donor implant.
Identifer | oai:union.ndltd.org:bl.uk/oai:ethos.bl.uk:277515 |
Date | January 1991 |
Creators | Gwilliam, Russell |
Publisher | University of Surrey |
Source Sets | Ethos UK |
Detected Language | English |
Type | Electronic Thesis or Dissertation |
Source | http://epubs.surrey.ac.uk/844545/ |
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