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World's fastest camera shoots at 10 trillion frames per second. It can capture light in slow motion

In brief: Researchers have developed what they say is the world’s fastest camera. Dubbed the T-CUP, it can capture 10 trillion frames per second, allowing it to ‘freeze time’ and see light in super-slow motion.
Researchers from Quebec University’s Institute national de la recherche scientifique (INRS) and the California Institute of Technology (Caltech) began by looking at compressed ultrafast photography (CUP), which can capture images at around 100 billion frames per second. T-CUP improves on this technique as it’s based on a femtosecond (one quadrillionth of a second) streak camera that also incorporates a data acquisition type, which is commonly used in applications like tomography.

“We knew that by using only a femtosecond streak camera, the image quality would be limited,” says Professor Lihong Wang, the Bren Professor of Medial Engineering and Electrical Engineering at Caltech and the Director of Caltech Optical Imaging Laboratory (COIL). “So to improve this, we added another camera that acquires a static image. Combined with the image acquired by the femtosecond streak camera, we can use what is called a Radon transformation to obtain high-quality images while recording ten trillion frames per second.”

The new camera was able to capture the temporal focusing of a single femtosecond laser pulse in real time—a process that was recorded in 25 frames taken at an interval of 400 femtoseconds. It detailed the light pulse’s shape, intensity, and angle of inclination.

“This new camera literally makes it possible to freeze time to see phenomena - and even light - in extremely slow motion,” said lead author Jinyang Liang. “Although some measurements are possible, nothing beats a clear image.”

“It's an achievement in itself, but we already see possibilities for increasing the speed to up to one quadrillion (1015) frames per second!”

Now that it’s set a world record for real-time imaging speed, T-CUP is expected to power a new generation of microscopes for medical and other applications.


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