Scientists from an international collaboration have come up with special eyeglass that will help to concentrate the beam of strong X-ray laser. It is claimed to be helpful in obtaining various kinds of measurements.

According to Phys.org, the corrective eyeglass eliminates the inevitable effects of an X-ray beam with immediate effect. It directs three-quarters of the X-ray beam on an area having diameter of250 nanometers, thus advancing towards the theoretical limit. The researchers have said that generally it is difficult to focus or deflect X-rays, and so even the slightest manufacturing defect in the lens might lead to "detrimental" effect on the wavelength of the X-rays.

Eyeglasses made of the element "Berryllium" are suggested to be perfect for the phenomenon by the scientists. These are compression-molded lenses having precision dies, usually curved too strongly near the center. The "Berryllium" eyeglass helps to distribute more light produced out of the focus quite evenly over a bigger area.

According to Newswise, Researchers used a stack of a portable beryllium lens to optimize the focusing, measuring the defects in the lens. This data was used to make a customized corrective lens out of quartz glass using a precision layer. The scientists then used the X-ray laser testing its effect on these eyeglasses. The test showed no change in the sharpness at the central part of the beam when passed through the corrective lenses. It remained at about 150 nanometers with or without the eyeglasses.

The corrective eyeglasses were tested at the LCLS, the DOE office of Science User Facility, along with two "synchrotrons", Petra III at DESY and the Diamond Light Source in the United Kingdom. All the experiments saw identical results with the corrective eyeglasses. The eyeglasses were manufactured at the Friedrich-Schiller-Universitat in Jena, Germany, whereas, the samples were prepared at the KTH Royal Institute of Technology in Stockholm, Sweden. Expertise to the research was given way by DESY, the Technical University of Dresden and the University of Hamburg.

The results of the study were published in the journal "Nature Communications". The DOE Office of Science, Office of Basic Energy Sciences, funded the research at SLAC, the multi-program laboratory operated by Stanford University for the U.S Department of Energy's Office of Science.