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Strain-Controlled Quantum Dot Fine Structure for Entangled Photon Generation at 1550 nm.

Thomas LettnerSamuel GygerKatharina D ZeunerLucas SchweickertStephan SteinhauerCarl Reuterskiöld HedlundSandra StrojArmando RastelliMattias HammarRinaldo TrottaKlaus D JönsVal Zwiller
Published in: Nano letters (2021)
Entangled photon generation at 1550 nm in the telecom C-band is of critical importance as it enables the realization of quantum communication protocols over long distance using deployed telecommunication infrastructure. InAs epitaxial quantum dots have recently enabled on-demand generation of entangled photons in this wavelength range. However, time-dependent state evolution, caused by the fine-structure splitting, currently limits the fidelity to a specific entangled state. Here, we show fine-structure suppression for InAs quantum dots using micromachined piezoelectric actuators and demonstrate generation of highly entangled photons at 1550 nm. At the lowest fine-structure setting, we obtain a maximum fidelity of 90.0 ± 2.7% (concurrence of 87.5 ± 3.1%). The concurrence remains high also for moderate (weak) temporal filtering, with values close to 80% (50%), corresponding to 30% (80%) of collected photons, respectively. The presented fine-structure control opens the way for exploiting entangled photons from quantum dots in fiber-based quantum communication protocols.
Keyphrases
  • quantum dots
  • air pollution
  • photodynamic therapy
  • energy transfer
  • sensitive detection
  • molecular dynamics
  • monte carlo
  • high intensity