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Multi-Soliton Microcombs Enable Ultrafast Nanometric-Precision Ranging and Photon-Level Detection.

Jiawen Zhi1, Xiaoyang Guo1, Xusheng Yang1

  • 1National Gravitation Laboratory, MOE Key Laboratory of Fundamental Physical Quantities Measurement, and School of Physics, Huazhong University of Science and Technology, Wuhan, China.

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Summary
This summary is machine-generated.

Multi-soliton microcombs in a dual-comb system overcome limitations of single-soliton and chaotic microcombs for precision ranging. This approach achieves higher efficiency and coherence, enabling nanometric measurement uncertainties for diverse applications.

Keywords:
microcombmulti‐solitonnanometric‐precisionphoton‐level detectionultrafast ranging

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Area of Science:

  • Photonics and Optical Engineering
  • Precision Metrology
  • Quantum Optics

Background:

  • Optical microcombs are valuable for precision ranging due to their unique properties.
  • Existing microcomb states (single-soliton and chaotic) present a trade-off between coherence and efficiency.
  • This limits their practical deployment in high-precision measurement systems.

Purpose of the Study:

  • To overcome the limitations of single-soliton and chaotic microcombs for enhanced precision ranging.
  • To implement and evaluate multi-soliton microcombs in a dual-comb system.
  • To demonstrate the capabilities of multi-soliton ranging in various applications.

Main Methods:

  • Implementation of multi-soliton states in a dual-comb configuration.
  • Utilizing three solitons in both combs for initial experiments.
  • Employing a five-soliton signal comb with a single-soliton local comb for photon-level ranging.
  • Conducting experiments for vibration monitoring, object tracking, and outdoor measurements.

Main Results:

  • Achieved measurement uncertainty within ±17 nm and precision of 1.43 nm (2 µs) and 3.42 pm (500 µs) using three solitons.
  • Demonstrated photon-level ranging with uncertainty below ±9.5 µm and precision of 3.57 µm (1 s) and 202 nm (50 s).
  • Successfully applied multi-soliton ranging to vibration monitoring, spinning disk measurement, UAV tracking, outdoor ranging (~270 m), and non-line-of-sight imaging.

Conclusions:

  • Multi-soliton microcombs in dual-comb systems offer superior precision, speed, and efficiency compared to single-soliton methods.
  • This technology enables nanometric precision ranging and opens new avenues for optical communications, spectroscopy, and time transfer.
  • The demonstrated capabilities highlight the potential for advanced optical metrology in real-world scenarios.