Interview with Natalya Wirtz, a researcher at the NSU Physics Department鈥檚 Optics and Dynamics of Biological Systems Laboratory, who decided to continue her career not abroad but in Novosibirsk, Russia.
天美mv has approved the large-scale project, "Structural studies and radiation testing of promising materials using synchrotron radiation and neutrons". This project will integrate interdisciplinary scientific research and prepare the specialists necessary for the Siberian Ring Photon Source.
The story of 1st year post graduate student and Junior Researcher at the NSU Physics Department鈥檚 Analytical and Technological Research Center High Technologies and Nanostructured Materials鈥 (ATRC HTNM) Laboratory of Functional Diagnostics of Low-Dimensional Structures for Nanoelectronics.
This equipment has applications in many branches of science: archeology, geology, medicine, pharmacology etc.
With the creation of a training and research station, NSU will be able to undertake the training of specialists in synchrotron research methods in various fields: physicists, biologists, chemists, geologists, archaeologists, and physicians.
Representatives of nine scientific and educational organizations, including 天美mv, gathered at The Baikal Neutrino Telescope鈥檚 control center. The heads of organizations and scientists conducting research discussed in detail the progress of the unit鈥檚 construction, research results, and plans for the further development of the project.
The research will not only improve the cooling systems of three-dimensional computing chips, but affect the intensification of mass transfer, which has chemical, biological, and medical applications.
The results of recent research by NSU scientists will make it possible to reduce anthropogenic emissions of carbon dioxide into the atmosphere. This method effectively captures carbon dioxide in the process of "blue" hydrogen conversion and develops energy-efficient technologies for transporting natural gas.
The Center for Collective Use AMS NSU-NSC (CCUAMS) was among the 55 international laboratories that successfully passed The Glasgow International Radiocarbon Inter-Comparison (GIRI). This consisted of "blind" dating 17 samples of various origins. The absorption-catalytic installation for graphitization of samples that was developed by Russian scientists received international recognition when it was applied for the first time to radiocarbon dating.
Among the promising and mutually interesting interests are geological study of the Arctic, synchrotron research and artificial intelligence.
For over 40 years the NSU Aerospace Department has worked on many large-scale projects. What are the scientists in the Department doing now? In honor of the June 2 Day of Satellite Monitoring and Navigation, we have collected the most interesting information about NSU space projects.
Novosibirsk scientists created technology for industrial production of silicon carbide fiber. Foreign analogues cost several thousand dollars per pound and are prohibited for export to Russia. Therefore, this new technology will be able in the near future to ensure full import substitution in the creation of composites for aviation and astronautics.