World Champion in Science and a pioneering Research Scientist, Valentin Shironosov leads groundbreaking research at the Scientific Research Center 'IKAR,' specializing in the development of 'Atomic Forceps and Scalpel' for nanotechnologies. With over four decades of experience, he has made significant contributions to understanding nonlinear parametric resonance and dynamic stability in physical and biological systems, recognized for breakthrough discoveries in fundamental physics, biophysics, and medicine. His work is critical for advancing precise manipulation at the molecular and atomic levels.
Izhevsk, Udmurt Republic, Russian Federation
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Summary
As Lead Research Scientist at IKAR, Valentin Shironosov pioneered interdisciplinary research in theoretical and experimental physics, developing foundational principles for nanotechnologies with significant applications across physics, biology, chemistry, and medicine.
Highlights
Theoretically and experimentally demonstrated the possibility of resonance confinement for bodies and particles (from elementary to macro) in non-uniform electromagnetic fields without external feedback in 1974.
Developed accurate analytical solutions for fundamental equations simulating complex nonlinear processes across chemistry, biology, medicine, biophysics, and physics between 1988 and 1990.
Established a novel analytical method in 1988 to precisely define dynamical stability areas for unstable, multicomponent nonlinear physical systems under resonant conditions.
Theoretically resolved the "1/R³" problem in 1984, proving the existence and stability of resonance microclusters (Spin Isomers) caused by nonlinear parametric resonance.
Initiated and conducted experimental testing in 1984 of the "selective scalpel" method on Proteus bacteria, demonstrating spatially selective non-thermal effects on biological systems.
Pioneered the concept and development of "Atomic Forceps and Scalpel" as precision instruments for manipulating particles smaller than 10⁻⁹ meters, addressing a critical challenge in nanotechnologies.
Awarded By
International Historical Biographical Institute
Awarded the title of World Champion in Science at the 1st World Championship in Technical Sciences, Architecture, Physics, and Mathematics held in Beijing, recognizing pioneering contributions to interdisciplinary scientific fields.
Published by
"МИС-РТ"-2023 Сборник № 84-5
Summary
A comprehensive paper detailing theoretical and experimental advancements in creating "atomic forceps and scalpel" using nonlinear parametric resonance for precise manipulation in nanotechnologies, with applications in physics, medicine, chemistry, and biology.
Published by
10th International Congress "Water: ecology and technology" (EQUATEK)
Summary
Presented on fundamental physics concepts, including quantum mechanics and water structure, at an international congress.
Published by
International Forum on Nanotechnology
Summary
Presented research on the concept and development of nanoscale manipulation tools at an international forum.
Published by
Udmurt University Publishing House
Summary
Authored a publication detailing the role and implications of resonance phenomena across various scientific disciplines.
Atomic Forceps, Atomic Scalpel, Molecular Manipulation, Microclusters, Spin Isomers.
Nonlinear Parametric Resonance, Dynamical Systems, Quantum Mechanics, Electrodynamics, Mathematical Modeling, Bifurcation, Chaos Theory, Lagrangian Mechanics, Bessel Functions.
Electromagnetic Fields, Microwave Resonators, Magnetic Fields, Experimental Design, Data Analysis, Computer Simulation, Analog Computing.
Biosystems, Microorganisms, Cell Dynamics, NMR-EPR, Biochemical Reactions, Cancer Treatment, Magnetic Resonance Therapy (MBST).
Problem Solving, Hypothesis Testing, Publication, Interdisciplinary Collaboration, Literature Review, Technical Writing.