Publications

Deterministically placed quantum dots for quantum nanophotonics

Subramania, Ganapathi S.; Fischer, Arthur J.; Anderson, P.D.; Koleske, Daniel K.

The ability to achieve deterministic placement of semiconductor quantum dots (QDs) opens up interesting possibilities for nanophotonic devices. By incorporating these QDs within microcavities, light-matter interaction can be tailored and enhanced, enabling phenomenon such as spontaneous emission enhancement, low threshold lasing, single photon emission and strong-coupling. The quality of these phenomena relies on the distribution of emission wavelengths of the emitter dipoles and the strength of their coupling to internal fields of the cavity. Therefore size-controlled fabrication of QDs and their deterministic placement become quite important. In this work we will describe a photoelectrochemical-based etching of III-nitride materials to achieve QDs with uniform emission wavelength. By patterning using electron beam lithography to create a nanopost structure in an epitaxially grown III-nitride based quantum well structure, we will show potential for deterministic placement. The photoluminescence response from the nanopost structure after photoelectrochemical etching reveals sharp lines indicative of quantum dot formation.