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Information × Registration Number 0222U003465, 0117U002130 , R & D reports Title Quantum transport in hybrid superconducting nanostructures and ion-plasma condensates and their electromagnetic properties popup.stage_title Head Rudenko Eduard M, Registration Date 29-03-2022 Organization Institute of Metal Physics. G.V. Kurdyumov of the National Academy of Sciences of Ukraine popup.description2 Based on the effect of resistive switching in binary oxides, a new nanoscale technique for the spectroscopy of superconducting materials has been proposed and implemented. At the same time, traditional approaches to the spectroscopy of the electron-bosonic coupling in strongly coupled superconductors (tunnel and point contact methods) are implemented on various samples. The new method allows you to get certain data on the same instrument. The proposed technique provides a simple and promising way to analyze the electron-bosonic relationship in superconducting materials. The influence of the electron-phonon interaction on the excitation and decay spectrum in the narrow-gap electronic subsystem of cuprates has been studied theoretically. It has been found that the strong electron-phonon interaction enhances the degree of coherence of electron-polaron excitations near the Fermat level. The penetration of spin-polarized electrons into a superconducting film is studied theoretically and experimentally. It is shown that this effect is applicable as a tool for initiating phase slip lines in certain places of the superconducting film, while the width of the phase slip region is controlled by the interaction between the energy and spin scales of the relaxation lengths in the superconductor. With the help of a device unique in its technological capabilities, a hybrid helicon-arc ion-plasma reactor, developed in the framework of this work, a regular nanorelief structure 2–10 nm in size was obtained for the first time for a titanium nitride film on single-crystal silicon. Technological foundations for the formation of aluminum nitride films on thermolabile polymer substrates using a hybrid helicon-arc plasma reactor are proposed. Nanostructured AlN films were synthesized for the first time on flexible thermolabile polymer substrates Teflon and Mylar. Product Description popup.authors Bilogolvskii Mykhaylo О. Dyakin Maxim V. Korotash Igor V. Krakovny Anatoliy O Noskov Valeriy L. Perepelytsya Vitaliy K. Polotskiy Denis Yu. Reut Valentyna M. Rudenko Eduard M. Solomakha Dmytro O. Suporovsʹkyy Oleh Y. Shaternyk Volodymyr Е. Shlapak Yurij V. popup.nrat_date 2022-03-29 Close