>1SRI «PRNR», Electron Laboratory LLC, 151100, Republic of Uzbekistan, Ferghana region, Margilan
>2Fergana Polytechnic Institute, 150100, Republic of Uzbekistan, Ferghana region, Ferghana
>3Fergana branch of Tashkent University of Information Technologies named after Mukhammad al-Khwarizmi, 185, Mustaqillik street, Fergana, 150118, Uzbekistan
Abstract. The paper presents a study on modeling the quantum mechanical process of tunneling a beam of charged particles to transmit information over long distances. The Schrodinger equation is used for the analysis, boundary and initial conditions are formulated. The initial conditions are the values of the quantum mechanical probability function from the square of its modulus at the initial moment of time and at the final moment, depending on the distance. Experimental data were used as data for the calculation. The solution of the problems was carried out using the method of separation of Fourier variables. In conclusion, the parameters of the simulated system with its features and corresponding graphical representations are given. Based on the results obtained, conclusions are drawn on the effect of tunneling in the transmission of information.
Key words: Subsequent, spirit, Kuiper, equation, planet Earth, transmission technology
The development of information technology in the modern industry leads to the need to improve data transmission systems at high speeds. The improvement of technologies for sending electromagnetic signals between different communication systems was initially organized on the principles of interaction through a direct conductor, which was observed in local installations where individual blocks of a particular design interacted with each other transmitting the necessary data [1]. In this case, the speed and volume of data transmission was limited by the network capabilities, in the case of speed, it was the speed depending on the difference in the created potentials or on the speed of charges in the conductor, the volume depended on the quantitative possibility of transferring charges over a certain distance.