Spatiotemporal Observation of Light Propagation in a Three-dimensional Scattering Medium

Overview

Journal Sci Rep

Specialty Science

Date 2021 Nov 9

PMID 34750419

Citations 1

Authors

Tomoyoshi Inoue

Yuasa Junpei

Seiya Itoh

Tatsuya Okuda

Akinori Funahashi

Tetsuya Takimoto

Takashi Kakue

Kenzo Nishio

Osamu Matoba

Yasuhiro Awatsuji

Affiliations

Soon will be listed here.

Abstract

Spatiotemporal information about light pulse propagation obtained with femtosecond temporal resolution plays an important role in understanding transient phenomena and light-matter interactions. Although ultrafast optical imaging techniques have been developed, it is still difficult to capture light pulse propagation spatiotemporally. Furthermore, imaging through a three-dimensional (3-D) scattering medium is a longstanding challenge due to the optical scattering caused by the interaction between light pulse and a 3-D scattering medium. Here, we propose a technique for ultrafast optical imaging of light pulses propagating inside a 3D scattering medium. We record an image of the light pulse propagation using the ultrashort light pulse even when the interaction between light pulse and a 3-D scattering medium causes the optical scattering. We demonstrated our proposed technique by recording converging, refracted, and diffracted propagating light for 59 ps with femtosecond temporal resolution.

Citing Articles

Exploration for adequate non-diffractive beam generation in dense scattering media.

Xiafukaiti A, Lagrosas N, Shiina T Sci Rep. 2022; 12(1):8824.

PMID: 35614163 PMC: 9132992. DOI: 10.1038/s41598-022-12810-4.

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