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Tunable single-photon emitters in 2D materials.

Yi Yu1, In Cheol Seo1, Manlin Luo1

  • 1School of Electrical and Electronic Engineering, Nanyang Technological University, 50 Nanyang Avenue, Singapore 639798, Singapore.

Nanophotonics (Berlin, Germany)
|December 5, 2024
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Summary

Developing tunable single-photon emitters (SPEs) in 2D materials is crucial for quantum computing. This review explores methods to precisely control SPEs, enabling scalable arrays for efficient single-photon generation.

Keywords:
2D materialsStark effectsingle-photon emittersstrain engineeringwavelength tunability

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Area of Science:

  • Quantum Technology
  • Materials Science
  • Photonics

Background:

  • Single-photon emitters (SPEs) are essential for quantum technologies like quantum computing.
  • Scalable arrays of identical SPEs are needed for high-rate single-photon generation, boosting computational power.
  • Various SPEs have been discovered in 2D materials, offering potential for quantum applications.

Purpose of the Study:

  • To review recent advancements in tuning methods for 2D material-based SPEs.
  • To highlight techniques for controlling SPE emission properties for identical photon production.
  • To discuss the potential of tunable 2D SPEs for scalable quantum photonics.

Main Methods:

  • Discussion of the operational principles and characteristics of different 2D SPEs.
  • Review of dynamic strain engineering techniques for tuning emission wavelengths.
  • Presentation of electric field-induced wavelength tuning methods for 2D SPEs.

Main Results:

  • Identified various 2D SPEs with unique characteristics.
  • Demonstrated dynamic strain engineering for wavelength tuning in 2D SPEs.
  • Showcased electric field-induced tuning as a viable method for 2D SPEs.

Conclusions:

  • Dynamically tunable 2D SPEs are key to developing scalable arrays.
  • Precise control over SPE emission properties is achievable through strain and electric fields.
  • Advancements in tunable 2D SPEs pave the way for practical quantum photonics applications.