Structure of Space and the Submicroscopic Deterministic Concept of Physics
Product details
- ISBN 9781771885300
- Weight: 220g
- Dimensions: 152 x 229mm
- Publication Date: 27 Jun 2017
- Publisher: Apple Academic Press Inc.
- Publication City/Country: CA
- Product Form: Hardback
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This book, Structure of Space and the Submicroscopic Deterministic Concept of Physics, completely formalizes fundamental physics by showing that all space, which consists of objects and distances, arises from the same origin: manifold of sets. A continuously organized mathematical lattice of topological balls represents the primary substrate named the tessellattice. All fundamental particles arise as local fractal deformations of the tessellattice. The motion of such particulate balls through the tessellattice causes it to deform neighboring cells, which generates a cloud of a new kind of spatial excitations named ‘inertons’. Thus, so-called "hidden variables" introduced in the past by de Broglie, Bohm and Vigier have acquired a sense of real quasiparticles of space.This theory of space unambiguously answers such challenging issues as: what is mass, what is charge, what is a photon, what is the wave psi-function, what is a neutrino, what are the nuclear forces, and so on. The submicroscopic concept uncovers new peculiar properties of quantum systems, especially the dynamics of particles within a section equal to the particle’s de Broglie wavelength, which are fundamentally impossible for quantum mechanics. This concept, thoroughly discussed in the book, allows one to study complex problems in quantum optics and quantum electrodynamics in detail, to disclose an inner world of particle physics by exposing the structure of quarks and nucleons in real space, and to derive gravity as the transfer of local deformations of space by inertons which in turn completely solves the problems of dark matter and dark energy. Inertons have revealed themselves in a number of experiments carried out in condensed media, plasma, nuclear physics and astrophysics, which are described in this book together with prospects for future studies in both fundamental and applied physics.
Dr. V. Krasnoholovets was born in Kyiv, Ukraine. He graduated from a mathematical school, and then became a student of the Kyiv’s Taras Shevchenko National University, Department of Physics, Faculty of Theoretical Physics; he received a master’s degree in 1979. For next several years he worked as an experimentalist in the area of superconductivity at the Institute for Metal Physics, National Academy of Sciences of Ukraine, Kyiv. Since the end of 1981 and to now, he has been working at the Department of Theoretical Physics, Institute of Physics, Natl. Acad. Sci., Kyiv. A PhD thesis was defended in 1987; it was devoted to the study of a proton polaron model in compounds with hydrogen bonds including biological systems. At the Department, he focuses on condensed matter physics. Since 1993 he is a Senior Research Scientist. In the mid-1980s he also began to take an interest in the foundations of physics. The first paper in this field was published in 1993. In 1998-2003 Dr. Krasnoholovets actively worked with one of the classical French mathematicians, Prof. Michel Bounias (who passed away in 2003). Together with Prof. Bounias a theory of real physical space was developed, which started from pure mathematical principles, namely, set theory, topology and fractal geometry. Another professional interest is applied physics. In 2006 he co-founded a company in Belgium devoted to the development of technologies proposed by Ukrainian scientists. The company was named Indra Scientific and it has been gradually developing embracing new areas of applications (the production of biodiesel, recycling of industrial waste, organic waste to energy by using a new design of a gasifier, cleaning of waste water, infrared heating thin films, measuring devices, ecological chemistry, etc.). He is an editor of several books and collections of works dealing with quantum physics and gravity. Dr. Krasnoholovets has published over 80 research papers.
