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Measures of variability are statistical metrics that reveal the dispersion pattern within a dataset. They are pivotal in biostatistics, providing insights into the heterogeneity within health and biological data. Variability signifies the degree to which data points diverge from one another, helping researchers understand the potential range of values and associated uncertainty within the data.
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Related Experiment Video

Updated: Jan 26, 2026

Quantum State Engineering of Light with Continuous-wave Optical Parametric Oscillators
09:23

Quantum State Engineering of Light with Continuous-wave Optical Parametric Oscillators

Published on: May 30, 2014

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Improving free-space continuous variable quantum key distribution with adaptive optics.

Mikhael T Sayat1,2,3,4, Marcus Birch5,6, Michael Copeland6

  • 1Quantum Innovation Centre (Q.InC), Agency for Science Technology and Research (A*STAR), 2 Fusionopolis Way, Innovis #08-03, Singapore, 138634, Republic of Singapore. mikhael_sayat@a-star.edu.sg.

Scientific Reports
|January 24, 2026
PubMed
Summary
This summary is machine-generated.

Turbulence degrades free-space quantum key distribution (CVQKD) by distorting signals. Adaptive optics at the receiver can correct these distortions, significantly improving CVQKD performance and key rates in turbulent environments.

Keywords:
Adaptive opticsContinuous variableQuantum key distributionTurbulence

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Area of Science:

  • Quantum Information Science
  • Optical Engineering
  • Atmospheric Optics

Background:

  • Free-space quantum key distribution (CVQKD) is susceptible to performance degradation caused by atmospheric turbulence.
  • Turbulence induces phase and amplitude aberrations in the transmitted quantum signal wavefronts.
  • This leads to reduced interferometric visibility between the quantum signal and the local oscillator (LO).

Purpose of the Study:

  • To investigate the impact of turbulence on interferometric visibility in CVQKD systems.
  • To demonstrate the effectiveness of adaptive optics (AO) in mitigating turbulence-induced aberrations.
  • To quantify the improvement in CVQKD performance metrics using AO.

Main Methods:

  • Coherent state transmissions were conducted through turbulent channels of 60 cm and 30 m.
  • Interferometric visibility was measured with and without adaptive optics correction.
  • Channel characterization was performed to assess wavefront aberrations.
  • The impact on secret key rates in an ideal CVQKD system was theoretically analyzed.

Main Results:

  • A decrease in interferometric visibility was observed in turbulent channels.
  • Adaptive optics significantly increased interferometric visibility and reduced its fluctuations.
  • Characterization confirmed AO's ability to correct phase and amplitude aberrations.
  • Simulations showed that AO leads to more precise and higher secret key rates.

Conclusions:

  • Adaptive optics is a viable solution to counteract turbulence effects in free-space CVQKD.
  • Implementing AO at the receiver enhances the robustness and key generation rates of CVQKD systems.
  • This work improves the practical feasibility of secure quantum communication over atmospheric channels.