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Capturing non-transparent ultrafast scenes
date2023-08-08 09:25:31 Click No.98

by Julie Robert, Institut national de la recherche scientifique - INRS

Schematics of the single-shot ultrafast THz photography system. Credit: Roberto Morandotti (INRS)

A research team at the Institut national de la recherche scientifique (INRS) led by Professor Roberto Morandotti reported the first realization of a single-shot ultrafast terahertz (THz) photography system. This important achievement published in Nature Communications will be able to provide both the spatial and temporal evolution of ultrashort dynamics with sub-picosecond resolution.

In other words, researchers will be now able to uncover the hidden laws of nature that govern the dynamics, which require imaging speeds orders of magnitudes beyond the limits of electronic sensors.

Unlike the rapid development of ultrafastimaging at conventional optical wavelengths, single-shot ultrafast imaging with THz radiation remains unexplored. This is mainly due to the severe lack of key devices in the THz frequency regime, such as high-speed modulators and cameras, which are typically indispensable for ultrafast imaging.

"This work is a major achievement from our team and collaborators in the field of optics. By taking advantage of the unique penetration ability of THz radiation, our system was able to capture ultrashort events in optically opaque scenarios, which are typically not accessible via conventional optical frequencies," says Professor Roberto Morandotti, Scientific Leader of the Ultrahigh Speed Light Manipulation Laboratory and corresponding author of the study.

"We have successfully unlocked single-shot ultrafast imaging in the THz regime. Thanks to our work, we can now capture a movie of irreversible ultrafast phenomena with an inter-frame time interval of less than 1 picosecond," states Junliang Dong, research associate in Morandotti's laboratory at INRS and first author of the study.

Ultrafast imaging using terahertz radiation

Single-shot ultrafast photography has emerged as a key technique to elucidate the complex dynamics underlying various ultrafast phenomena in nature. Propelled by recent advances in the fields of ultrafast lasers, high-speed cameras, and computational imaging, single-shot ultrafast optical imaging has been able to capture two-dimensional (2D) transient scenes at more than one trillion frames per second, fast enough to visualize optical pulses traveling through space at the speed of light.

However, state-of-the-art single-shot ultrafast imaging techniques require the imaging targets to be optically transparent. This restriction prevents such techniques from exploring many critical ultrafast phenomena that occur in media with a short optical penetration depth, such as the dynamics of laser ablation in ceramics, magnetization in iron films, and carrier excitations in semiconductors.

Recently, imaging using THz radiation has garnered significant interest due to its ability to 'see through' various materials. However, single-shot ultrafast THz imaging is still in the embryonic stage due to the absence of high-speed THz cameras.

In this study, Morandotti's team from the INRS Énergie Mat└riaux T└l└communications Research Centre exploited the electro-optic sampling technique for THz detection with a carefully designed optical probe beam, which is simultaneously multiplexed in the time and spatial-frequency domains.

"Since it only relies on commonly available optical components, such as beam splitters, optical delay lines, gratings, and CCD cameras, our technique essentially bypasses the need for any THz high-speed devices. Even so, it is powerful enough to record the ultrafast scenes carried by THz waves in a single shot," explains Professor Morandotti.

Occurring in a two-dimensional space and femtosecond-to-picosecond timescales, real-time imaging of these transient events reflects various fundamental mechanisms that remain complex and mostly inaccessible, such as chemical reactions and light-matter interactions.

Conventionally, pump-probe methods are used to record ultrafast dynamics through repeated measurements. Nevertheless, many ultrafast phenomena have significant shot-to-shot variations and low occurrence rates, thus making them "non-repeatable."

According to the researchers, their system is envisioned to be an unprecedented tool for the investigation of non-repeatable or destructive dynamics in advanced materials and structures, such as 2D materials, and even biological matter, like skin and corneas, which are typically optically opaque.


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