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1. Discrete mean square approximation applied to error calculation in biomolecules and brownian motion

   https://doi.org/10.1142/S0217979221503136  

   Randjelovic, Branislav ; Markovic, Bojana ; Mitic, Vojislav V. ; Aleksic, Sanja ; Milosevic, Dusan ; Vlahovic, Branislav ; Tsay, Shwu-Chen ( December 2021 , International Journal of Modern Physics B)

   Advanced research frontiers are extended from biophysics relations on the Earth upto the discovering any type of alive matter within the whole space. Microorganisms’ motion within the molecular biology processes integrates variety of microorgnisms functions. In continuation of our Brownian motion phenomena research, we consistently build molecular-microorganisms structures hierarchy. We recognize everywhere biomimetic similarities between the particles in alive and nonalive matter. The research data are based on real experiments, without external energy impulses. So, we develop the analysis, inspired by fractal nature Brownian motion, as recognized joint parameter between particles in alive and nonalive biophysical systems. This is also in line with advance trends in hybrid submicroelectronic integrations. The important innovation in this paper is that we introduced approximation of trajectory and error calculations, using discrete mean square approximation, what cumulatively provide much more precise biophysical systems parameters. By this paper, we continue to generate new knowledge in direction to get complex relations between the particles clusters in biophysical systems condensed matter. 

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2. Brownian motion and fractal nature

   https://doi.org/10.1142/S0217984920400618  

   Mitic, Vojislav ; Lazovic, Goran ; Milosevic, Dusan ; Lu, Chun-An ; Manojlovic, Jelena ; Tsay, Shwu-Chen ; Kruchinin, Sergey ; Vlahovic, Branislav ( July 2020 , Modern Physics Letters B)

   The main goal of our research is to find the connection between micro particles and microorganisms motion in the Nature, considered as Brownian’s Motion within the fractal’s nature. For ceramics and generally material science it is important to clarify the particles motion and other phenomena, especially for grains and pores. Our idea is to establish control over the relation order–disorder on particle motion and their collision effects by Brownian motion phenomena in the frame of fractal nature matter. We performed some experiments and got interesting results based on microorganism motion initiated by different outer energetic impulses. This is practically the idea of biomimetic correlation between particles and microorganisms Worlds, what is very original and leads towards biunivocal different phenomena’s understanding. Another idea is to establish some controlling effects for electro ceramic particle motion in chemical-materials sciences consolidation by some phenomena in the nature. These important research directions open new frontiers with very specific reflections for future of microelectronics materials. 

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3. Fractal correction in advanced solar energy material’s current–voltage equation

   https://doi.org/10.1142/S0217979222500163  

   Aleksic, Sanja ; Mitic, Vojislav V. ; Randjelovic, Branislav M. ; Pantic, Aleksandar ; Markovic, Bojana ; Karoui, Abdennaceur ; Vlahovic, Branislav ( January 2022 , International Journal of Modern Physics B)

   The world energy crisis necessitated the cause of the research interest into new, renewable and alternative energy sources. From this point of view, there is research on phenomena and different synthetic methods and on structure and electronic property optimization expressed by important material and device advancement. Efficiency and electricity generation (batteries, fuel cells, hydrogen energy) are nowadays actual questions. Because of that research, innovations and applications require extended knowledge by fractal nature characterization. The electrochemical energy sources solutions, especially electrolytes, are in fractal nature science focus. Based on the research novelties, especially electronic materials, we presented an investigation on fractal structure influence in electrochemistry. We explore the activation energy and fundamental thermodynamic functions and values, also the electrode surface changed by complex fractal correction through fractal dimension of grains and pores, and Brownian motion of involved particles, as well. At the end, the electrochemical Arrhenius and Butler–Volmer equation fractalization is applied. All of these open new perspectives for electrochemical energy processes, within electrolyte bulk and related electrodes and more precise energy generation. This is important for semiconductor processing in solar cells and devices. So, we included the knowledge of fractal sciences advancement in this field for current–voltage equation. 

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4. The fractal interpolation applied on brownian motion particles trajectories reconstruction

   https://doi.org/10.1142/S0217979222500357  

   Mitic, Vojislav V. ; Milosevic, Dusan ; Randjelovic, Branislav ; Milosevic, Mimica ; Markovic, Bojana ; Fecht, Hans ; Vlahovic, Branislav ( February 2022 , International Journal of Modern Physics B)

   The particles in condensed matter physics are almost characterized by Brownian motion. This phenomenon is the basis for a very important understanding of the particles motion in condensed matter. For our previous research, there is already applied and confirmed the complex fractal correction which includes influence of parameters from grains and pores surface and also effects based on particles’ Brownian motion. As a chaotic structure of these motions, we have very complex research results regarding the particles’ trajectories in three-dimension (3D). In our research paper, we applied fractal interpolation within the idea to reconstruct the above mentioned trajectories in two dimensions at this stage. Because of the very complex fractional mathematics on Brownian motion, we found and developed much simpler and effective mathematization. The starting point is within linear interpolation. In our previous research, we presented very original line fractalization based on tensor product. But, in this paper, we applied and successfully confirmed that by fractal interpolation (Akimo polynomial method) that is possible to reconstruct the chaotical trajectories lines structures by several fractalized intervals and involved intervals. This novelty is very important because of the much more effective procedure that we can reconstruct and in that way control the particles’ trajectories. This is very important for further advanced research in microelectronics, especially inter-granular micro capacitors. 

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5. Brownian fractal nature coronavirus motion

   https://doi.org/10.1142/S0217984921500767  

   Mitic, Vojislav ; Lazovic, Goran ; Milosevic, Dusan ; Ristanovic, Elizabeta ; Simeunovic, Dragan ; Tsay, Shwu-Chen ; Milosevic, Mimica ; Vlahovic, Branislav ( February 2021 , Modern Physics Letters B)

   The goal of our research is to establish the direction of coronavirus chaotic motion to control corona dynamic by fractal nature analysis. These microorganisms attaching the different cells and organs in the human body getting very dangerous because we don’t have corona antivirus prevention and protection but also the unpredictable these viruses motion directions what resulting in very important distractions. Our idea is to develop the method and procedure to control the virus motion direction with the intention to prognose on which cells and organs could attach. We combined very rear coronavirus motion sub-microstructures images from worldwide experimental microstructure analysis. The problem of the recording this motion is from one point of view magnification, but the other side in resolution, because the virus size is minimum 10 times less than bacterizes. But all these images have been good data to resolve by time interval method and fractals, the points on the motion trajectory. We successfully defined the diagrams on the way to establish control over Brownian chaotic motion as a bridge between chaotic disorder to control disorder. This opens a very new perspective to future research to get complete control of coronavirus cases. 

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