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QDotsWe study the dynamic control of the occupancy state and the quantized energy levels of quantum dot and quantum post nanostructures.

Goals include the realization of a precisely triggered single photon source and the implementation of acoustically controlled quantum logic operations.

Here's a short video animation on a SAW-pumped single photon source (SAW-SPS) using a self-assembled quantum post (QP)


  


Key publications:

Please see full publication list to find out more about our quantum dot research activities.


Team:

Collaborations:

  • Sample growth
    • Kai Müller, Gregor Koblmüller and Jonathan Finley, Walter Schottky Institut, TU München, Self-assembled Quantum Dots and QD-Molecules
    • Andreas Wieck (Bochum) and Dirk Reuter (Paderborn), Self-assembled Quantum Dots 
    • Pierre Petroff, UC Santa Barbara, Quantum Posts
    • Oliver Schmidt (Dresden) and Armando Rastelli (Linz), Strain-free Quantum Dots
  • Theory
    • Peter Hänggi (Augsburg) and Sigmund Kohler (Madrid), SAW-driven quantum gates
    • Gabriel Bester (Hamburg), SAW-control of electronic structure

This work is supported by the European Union’s Horizon 2020 research and innovation programme under the Marie Sklodowska-Curie grant agreement No 642688 (SAWtrain) and the Cluster of Excellence Nanosystems Initiative Munich.