Russian, Italian Scholars Develop Ultrafast Microscope for Dark Matter Research

A Russian-Italian research team with scientists from Moscow's National University of Science and Technology MISiS (NUST MISiS) and the National Institute for Nuclear Physics (INFN) in Naples, Italy, have developed a simple and cost-effective technology to increase the speed performance of automated microscopes by dozens of times.
Sputnik

The invention can be applied to microscopes in a wide range of areas — from nuclear physics and cancer treatment to archaeology and volcanology. The research findings were published by Nature Research in its prestigious journal, Scientific Reports.

Modern science requires high-speed scanning systems that can carry out highly accurate analyses of the internal structure of samples, as well as receive and process large amounts of information. These are next-generation automated microscopes (AM), or robots equipped with high-precision mechanical and optical components, as well as high-speed video cameras. Operating speeds are a million times higher than those of human microscope operators.

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But now scientists are looking for a way to increase robot speeds by several orders of magnitude. More sophisticated microscopes will be indispensable, for instance, in experiments on identifying dark matter, where scientists will have to wade through tons of emulsion films from the detectors used to find the tracks of various particles.

So-called dark matter is a mysterious substance that is believed to account for a large part of the matter in the universe. According to scientific estimates, every galaxy contains about 8 to 10 times more dark matter than ordinary observable matter, and dark matter is what holds stars in place without letting them "scatter".

"In our research, we have tested the technique for the fully automated optical scanning of thin samples that next-generation automated microscopes will be based on", NUST MISiS and INFN researcher Andrei Alexandrov told Sputnik. "We analysed its performance and estimated the achievable scanning speed to compare it with conventional techniques".

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"The automated vision technology allows automated microscopes to identify objects in real time mode and decide whether images are worth processing or should be shifted elsewhere", Alexandrov said. "Today, in order to process a large stream of images (about 2 gigabytes per second per video camera) and accelerate intense computing, the CUDA parallel computing platform and GPU boards are used. We, however, have implemented a technology to incline the focal plane of the objective lens".

"The efficiency and accuracy of this approach proved comparable to traditional ones, while the scanning speed proved proportional to the number of cameras", the researcher said. "Thus, we can speak about significant progress".

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In the future, the researchers are planning to build and test a working prototype of the next-generation microscope that will be based on their newly developed focal plane inclination technology. The 10 to100 times increase in microscope speeds will make it possible to boost the amount of processed data while reducing the time needed for their analysis, all this without considerable financial outlays. This will also allow for increased applicability of the emulsion track detector technique.

"Future scientific experiments using these detectors will focus on searching for dark matter particles, studying neutrino physics, researching ion fragmentation for the needs of hadron cancer therapy, and protecting interplanetary mission crews from space radiation", Alexandrov added.

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