All Optical Method for Positioning Single Quantum Dots in Photonic Crystal Nanocavities

ORAL

Abstract

Single self-assembled InAs quantum dots embedded in GaAs photonic crystal (PC) defect cavities are a promising system for cavity quantum electrodynamics experiments. Achieving controllable coupling between the PC cavity mode and quantum dot emission is difficult, however, due to the random nucleation locations and spectral properties of individual quantum dots. We have developed a novel, all optical scheme for locating single dots relative to prefabricated markers on the sample surface with sub-10 nm accuracy which should allow us to custom fabricate PC cavities tuned to the exact position and frequency of the quantum dots. Initial experimental results are presented.

Authors

  • Susanna Thon

    University of California Santa Barbara, Department of Physics, University of California - Santa Barbara

  • Matthew Rakher

    University of California Santa Barbara, Department of Physics, Physics Dept., University of California Santa Barbara

  • Jan Gudat

    University of California Santa Barbara, Department of Physics

  • Hyochul Kim

    University of California Santa Barbara, Department of Physics

  • William Irvine

    University of California Santa Barbara, Department of Physics, Department of Physics and Center for Soft Matter Research, New York University, New York University

  • Dirk Bouwmeester

    University of California Santa Barbara, Department of Physics, University of California Santa Barbara, Physics Dept., University of California Santa Barbara, University of California - Santa Barbara and University of Leiden

  • Nick Stoltz

    University of California Santa Barbara, Materials Department

  • Pierre Petroff

    University of California Santa Barbara, Materials Department, Materials Dept., University of California Santa Barbara