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Deterministic optical polarisation in nitride quantum dots at thermoelectrically cooled temperatures.

Tong WangTim J PuchtlerSaroj Kanta PatraTongtong ZhuJohn C JarmanRachel A OliverStefan SchulzRobert Anthony Taylor
Published in: Scientific reports (2017)
We report the successful realisation of intrinsic optical polarisation control by growth, in solid-state quantum dots in the thermoelectrically cooled temperature regime (≥200 K), using a non-polar InGaN system. With statistically significant experimental data from cryogenic to high temperatures, we show that the average polarisation degree of such a system remains constant at around 0.90, below 100 K, and decreases very slowly at higher temperatures until reaching 0.77 at 200 K, with an unchanged polarisation axis determined by the material crystallography. A combination of Fermi-Dirac statistics and k·p theory with consideration of quantum dot anisotropy allows us to elucidate the origin of the robust, almost temperature-insensitive polarisation properties of this system from a fundamental perspective, producing results in very good agreement with the experimental findings. This work demonstrates that optical polarisation control can be achieved in solid-state quantum dots at thermoelectrically cooled temperatures, thereby opening the possibility of polarisation-based quantum dot applications in on-chip conditions.
Keyphrases
  • quantum dots
  • solid state
  • high resolution
  • sensitive detection
  • high speed
  • energy transfer
  • high throughput
  • mass spectrometry
  • ionic liquid
  • big data
  • electron microscopy