English

Superluminal Motion-Assisted 4-Dimensional Light-in-Flight Imaging

Optics 2021-01-13 v1 Image and Video Processing

Abstract

Advances in high speed imaging techniques have opened new possibilities for capturing ultrafast phenomena such as light propagation in air or through media. Capturing light-in-flight in 3-dimensional xyt-space has been reported based on various types of imaging systems, whereas reconstruction of light-in-flight information in the fourth dimension z has been a challenge. We demonstrate the first 4-dimensional light-in-flight imaging based on the observation of a superluminal motion captured by a new time-gated megapixel single-photon avalanche diode camera. A high resolution light-in-flight video is generated with no laser scanning, camera translation, interpolation, nor dark noise subtraction. A machine learning technique is applied to analyze the measured spatio-temporal data set. A theoretical formula is introduced to perform least-square regression, and extra-dimensional information is recovered without prior knowledge. The algorithm relies on the mathematical formulation equivalent to the superluminal motion in astrophysics, which is scaled by a factor of a quadrillionth. The reconstructed light-in-flight trajectory shows a good agreement with the actual geometry of the light path. Our approach could potentially provide novel functionalities to high speed imaging applications such as non-line-of-sight imaging and time-resolved optical tomography.

Keywords

Cite

@article{arxiv.2007.09308,
  title  = {Superluminal Motion-Assisted 4-Dimensional Light-in-Flight Imaging},
  author = {Kazuhiro Morimoto and Ming-Lo Wu and Andrei Ardelean and Edoardo Charbon},
  journal= {arXiv preprint arXiv:2007.09308},
  year   = {2021}
}

Comments

7 pages, 4 figures

R2 v1 2026-06-23T17:12:41.591Z