We demonstrate site-controlled growth of epitaxial Ag nanocrystals on patterned GaAs substrates by molecular beam epitaxy with high degree of long-range uniformity. The alignment is based on lithographically defined holes in which position controlled InAs quantum dots are grown. The Ag nanocrystals self-align preferentially on top of the InAs quantum dots. No such ordering is observed in the absence of InAs quantum dots, proving that the ordering is strain-driven. The presented technique facilitates the placement of active plasmonic nanostructures at arbitrarily defined positions enabling their integration into complex devices and plasmonic circuits. © 2012 American Institute of Physics.
Urbanczyk, A., Notzel, R. (2012). Site-controlled Ag nanocrystals grown by molecular beam epitaxy - Towards plasmonic integration technology. JOURNAL OF APPLIED PHYSICS, 112(12) [10.1063/1.4768914].
Site-controlled Ag nanocrystals grown by molecular beam epitaxy - Towards plasmonic integration technology
Notzel R.
2012
Abstract
We demonstrate site-controlled growth of epitaxial Ag nanocrystals on patterned GaAs substrates by molecular beam epitaxy with high degree of long-range uniformity. The alignment is based on lithographically defined holes in which position controlled InAs quantum dots are grown. The Ag nanocrystals self-align preferentially on top of the InAs quantum dots. No such ordering is observed in the absence of InAs quantum dots, proving that the ordering is strain-driven. The presented technique facilitates the placement of active plasmonic nanostructures at arbitrarily defined positions enabling their integration into complex devices and plasmonic circuits. © 2012 American Institute of Physics.
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