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Quantum entanglement and interference at 3 μm.

Zheng GeZhao-Qi-Zhi HanFan YangXiao-Hua WangYin-Hai LiYan LiMing-Yuan GaoRen-Hui ChenSu-Jian NiuMeng-Yu XieZhi-Yuan ZhouBao-Sen Shi
Published in: Science advances (2024)
Given the important advantages of the mid-infrared optical range (2.5 to 25 μm) for biomedical sensing, optical communications, and molecular spectroscopy, extending quantum information technology to this region is highly attractive. However, the development of mid-infrared quantum information technology is still in its infancy. Here, we report on the generation of a time-energy entangled photon pair in the mid-infrared wavelength band. By using frequency upconversion detection technology, we observe the two-photon Hong-Ou-Mandel interference and demonstrate the time-energy entanglement between twin photons at 3082 nm via the Franson-type interferometer, verifying the indistinguishability and nonlocality of the photons. This work is very promising for future applications of optical quantum technology in the mid-infrared band, which will bring more opportunities in the fields of quantum communication, precision sensing, and imaging.
Keyphrases
  • high resolution
  • molecular dynamics
  • energy transfer
  • monte carlo
  • high speed
  • photodynamic therapy
  • single molecule
  • living cells
  • body mass index
  • mass spectrometry
  • weight gain
  • fluorescence imaging