optically-excited excitonic states in semiconductor superlattices

dc.contributor.advisor	dignam, marc m.
dc.contributor.author	lachaine, jean-marc
dc.date.accessioned	2017-06-07t20:09:23z
dc.date.available	2017-06-07t20:09:23z
dc.date.created	2002
dc.date.issued	2002
dc.identifier.uri	http://knowledgecommons.lakeheadu.ca/handle/2453/3230
dc.description.abstract	an efficient method for calculation of the exciton states in type-i superlattices is developed and demonstrated. the model, based on the work of dignam & sipe [phys. rev. b 43,4097 (1991)], includes bound and quasi-continuous two-well exciton eigenstates as a basis in which to expand the superlattice exciton eigenstates. this basis is used to calculate the excitonic absorption spectra for two different type-i superlattices as a function of the applied static field. the results are found to be in very good agreement with the experimental results of holfeld et. al [phys. rev. lett. 81, 874 (1998)] for the 67a/17a superlattice and with those of agullo-rueda et. al [phys. rev. b 41, 1676 (1990)] for the 40a/40 a superlattice. on the basis of these results, this method should be ideal for use in the calculation of nonlinear and coherent effects in optically excited semiconductor superlattices.
dc.language.iso	en_us
dc.subject	exciton theory
dc.subject	superlattices as materials (optical properties)
dc.title	optically-excited excitonic states in semiconductor superlattices
dc.type	thesis
etd.degree.name	master of science
etd.degree.level	master
etd.degree.discipline	physics
etd.degree.grantor	阿根廷vs墨西哥竞猜