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Designing quantum dots for solotronics

Author

Listed:
  • J. Kobak

    (Institute of Experimental Physics, Faculty of Physics, University of Warsaw, Hoża 69)

  • T. Smoleński

    (Institute of Experimental Physics, Faculty of Physics, University of Warsaw, Hoża 69)

  • M. Goryca

    (Institute of Experimental Physics, Faculty of Physics, University of Warsaw, Hoża 69)

  • M. Papaj

    (Institute of Experimental Physics, Faculty of Physics, University of Warsaw, Hoża 69)

  • K. Gietka

    (Institute of Experimental Physics, Faculty of Physics, University of Warsaw, Hoża 69)

  • A. Bogucki

    (Institute of Experimental Physics, Faculty of Physics, University of Warsaw, Hoża 69)

  • M. Koperski

    (Institute of Experimental Physics, Faculty of Physics, University of Warsaw, Hoża 69)

  • J.-G. Rousset

    (Institute of Experimental Physics, Faculty of Physics, University of Warsaw, Hoża 69)

  • J. Suffczyński

    (Institute of Experimental Physics, Faculty of Physics, University of Warsaw, Hoża 69)

  • E. Janik

    (Institute of Experimental Physics, Faculty of Physics, University of Warsaw, Hoża 69)

  • M. Nawrocki

    (Institute of Experimental Physics, Faculty of Physics, University of Warsaw, Hoża 69)

  • A. Golnik

    (Institute of Experimental Physics, Faculty of Physics, University of Warsaw, Hoża 69)

  • P. Kossacki

    (Institute of Experimental Physics, Faculty of Physics, University of Warsaw, Hoża 69)

  • W. Pacuski

    (Institute of Experimental Physics, Faculty of Physics, University of Warsaw, Hoża 69)

Abstract

Solotronics, optoelectronics based on solitary dopants, is an emerging field of research and technology reaching the ultimate limit of miniaturization. It aims at exploiting quantum properties of individual ions or defects embedded in a semiconductor matrix. It has already been shown that optical control of a magnetic ion spin is feasible using the carriers confined in a quantum dot. However, a serious obstacle was the quenching of the exciton luminescence by magnetic impurities. Here we show, by photoluminescence studies on thus-far-unexplored individual CdTe dots with a single cobalt ion and CdSe dots with a single manganese ion, that even if energetically allowed, nonradiative exciton recombination through single-magnetic-ion intra-ionic transitions is negligible in such zero-dimensional structures. This opens solotronics for a wide range of as yet unconsidered systems. On the basis of results of our single-spin relaxation experiments and on the material trends, we identify optimal magnetic-ion quantum dot systems for implementation of a single-ion-based spin memory.

Suggested Citation

  • J. Kobak & T. Smoleński & M. Goryca & M. Papaj & K. Gietka & A. Bogucki & M. Koperski & J.-G. Rousset & J. Suffczyński & E. Janik & M. Nawrocki & A. Golnik & P. Kossacki & W. Pacuski, 2014. "Designing quantum dots for solotronics," Nature Communications, Nature, vol. 5(1), pages 1-8, May.
    • Handle: RePEc:nat:natcom:v:5:y:2014:i:1:d:10.1038_ncomms4191
    DOI: 10.1038/ncomms4191
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