Using a space-charge-controlled KTN beam deflector - a kind of crystal made of potassium tantalate and potassium niobate - with a large electro-optic effect, researchers have found that scanning at a much higher speed is possible.
"Basically, when the crystal materials are applied to an electric field, they generate uniform reflecting distributions, that can deflect an incoming light beam," said Shizhuo Yin, professor at Pennsylvania State University in the US.
To overcome this issue, researchers including those from the Army Research Laboratory in the US, eliminated the electric field-induced phase transition in a nanodisordered KTN crystal by making it work at a higher temperature.
They not only went beyond the Curie temperature (the temperature in which certain materials lose their magnetic properties, replaced by induced magnetism), they went beyond the critical end point (in which a liquid and its vapour can coexist).
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This increased the scanning speed from the microsecond range to the nanosecond regime and improved high-speed imaging, broadband optical communications, and ultrafast laser display and printing.
For example, optometrists who use a non-invasive imaging test that uses light waves to take cross-section pictures of a person's retina, would be able to have the 3D image of their patients' retinas as they are performing the surgery, so they can see what needs to be corrected during the procedure.
The research could benefit everyone, in that something being printed in 3D that once took an hour would now take seconds, and 20,000 pages printed in 2D would take one minute.
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