Graduated from the Moscow Institute of Physics and Technology in 1963 with diploma work on dielectric properties of irradiated polymers and biological objects.PhD in Solid State Physics in 1970 with thesis on The integral acousto-electronic devices research and development. A scientific leader of Russian Electronics Industry in the space oriented opto- and microelectronic devices and systems - 1973-1990. Professor in the Computer science department of the Russian New University - 2007-real time. An independent researcher in the Theory of molecular interactions and cluster physics - 1990-real time. The author of computerized methods to extract properties of clusters and molecular interactions from precise experimental thermophysical data. Discoveries of the clusters' bond energies and other bond parameters, new classes of clusters, new variables in the theory of thermophysical properties, new molecular interaction mechanisms in real gases.
The book develops ideas of the author's book "Discovering the Cluster World", publi... more The book develops ideas of the author's book "Discovering the Cluster World", published in 2015 by Lambert Academic Publishing. It demonstrates methods and results of molecular interactions' parameters extraction from modern electronic databases, such as the NIST Database for thermophysical properties of pure fluids. The analysis is based on a heuristic Hybrid intellect system of the researcher-computer cooperation that provides discovery of new laws of Nature basing on the hidden knowledge contained in databases. The analysis brings a lot of surprising and educational results: monomers’ repulsion mechanism opening way to computation of cluster bond parameters at high temperatures; giant bonds in clusters of several gases; the unknown before class of 1D linear chain clusters; soft structural transitions in cluster fractions and supercritical fluids. Due to detailed description of fundamental principles and wide utilization of diagrams the book may be used in educat...
The paper presents an advanced platform for thermodynamics education - the equilibrium pure real ... more The paper presents an advanced platform for thermodynamics education - the equilibrium pure real gas system, which has been deeply investigated experimentally and theoretically by researchers from all over the World. But in spite of a huge amount of extra precise experimental data, the nature of real gases and clusters in them is still poorly understood. The clusters are considered now as a new state of matter. To study them is both challenging and educative. We use a wonderful feature of pure real gases: the chemical potential for all basic particles in a gas is universal for all clusters. It permits us to find the monomer fraction density Dm from an experimental pressure dependence of the total density. This variable has proven to be the key to properties of clusters and molecular interactions. The advanced platform is more informative for thermodynamics education than the widely used ideal gas model, which ignores molecular interactions. It provides a new vision of molecular inte...
The book develops ideas of the author's book "Discovering the Cluster World", publi... more The book develops ideas of the author's book "Discovering the Cluster World", published in 2015 by Lambert Academic Publishing. It demonstrates methods and results of molecular interactions' parameters extraction from modern electronic databases, such as the NIST Database for thermophysical properties of pure fluids. The analysis is based on a heuristic Hybrid intellect system of the researcher-computer cooperation that provides discovery of new laws of Nature basing on the hidden knowledge contained in databases. The analysis brings a lot of surprising and educational results: monomers’ repulsion mechanism opening way to computation of cluster bond parameters at high temperatures; giant bonds in clusters of several gases; the unknown before class of 1D linear chain clusters; soft structural transitions in cluster fractions and supercritical fluids. Due to detailed description of fundamental principles and wide utilization of diagrams the book may be used in educat...
The paper presents an advanced platform for thermodynamics education - the equilibrium pure real ... more The paper presents an advanced platform for thermodynamics education - the equilibrium pure real gas system, which has been deeply investigated experimentally and theoretically by researchers from all over the World. But in spite of a huge amount of extra precise experimental data, the nature of real gases and clusters in them is still poorly understood. The clusters are considered now as a new state of matter. To study them is both challenging and educative. We use a wonderful feature of pure real gases: the chemical potential for all basic particles in a gas is universal for all clusters. It permits us to find the monomer fraction density Dm from an experimental pressure dependence of the total density. This variable has proven to be the key to properties of clusters and molecular interactions. The advanced platform is more informative for thermodynamics education than the widely used ideal gas model, which ignores molecular interactions. It provides a new vision of molecular inte...
The Paper Published by Dr. I. Brondz: Analytical Methods in Quality Control of Scientific Publica... more The Paper Published by Dr. I. Brondz: Analytical Methods in Quality Control of Scientific Publications Part IV: Fraud Ordered by the Pharmaceutical Industry
Clusters attract a large attention of scientists and practitioners as one of undiscovered problem... more Clusters attract a large attention of scientists and practitioners as one of undiscovered problems of thermal physics and thermodynamics. They greatly influence the properties of real gases, playing important role in Universe, our everyday life and technologies. But small sizes and small bond energies prevent from direct investigations of clusters. The book describes quite new approach to physics of equilibrium clusters, as an extension of chemical thermodynamics. The developed methods of precise thermophysical data analysis based on computer processing of data, contained in modern electronic databases, successfully solves the inverse mathematical problem of hidden parameters extraction from experimental data. The author explains the methods and demonstrates surprising results, such as structural features of equilibrium clusters, their bond energies, unknown types of clusters, linear chain clusters, clusters with giant bond energies. The book will be interesting to researchers, practitioners, teachers, undergraduate and Ph.D students.
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