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Welcome to IgMin Research – an Open Access journal uniting Biology, Medicine, and Engineering. We’re dedicated to advancing global knowledge and fostering collaboration across scientific fields.
Welcome to IgMin, a leading platform dedicated to enhancing knowledge dissemination and professional growth across multiple fields of science, technology, and the humanities. We believe in the power of open access, collaboration, and innovation. Our goal is to provide individuals and organizations with the tools they need to succeed in the global knowledge economy.
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Biography
Dr. L. Chkhartishvili is a distinguished academic and researcher affiliated with the Engineering Physics Department at Georgian Technical University, located in Tbilisi, Georgia. With a strong background in applied physics and engineering science, Dr. Chkhartishvili has built a career focused on advancing theoretical and experimental knowledge in engineering physics, nanotechnology, and materials science.
At Georgian Technical University, Dr. Chkhartishvili plays a key role in both education and research. He is actively involved in training future engineers and physicists, while also leading research initiatives that bridge fundamental science and practical technological applications. His work is particularly noted for its contributions to quantum physics, condensed matter theory, and the study of nanoscale systems.
As an author at IgMin Research, Dr. Chkhartishvili contributes scholarly articles on topics such as nanostructured materials, quantum systems, thermodynamic modeling, and electronic behavior in engineered materials. His research reflects a deep commitment to scientific precision and innovation, with a focus on the application of physics to real-world engineering challenges.
Based in Georgia, Dr. Chkhartishvili collaborates with both national and international institutions, fostering interdisciplinary projects that address emerging technological and scientific questions. His contributions have helped position Georgian Technical University as a hub for advanced research in engineering physics.
Through his dual roles in academia and research publishing, Dr. L. Chkhartishvili continues to shape the scientific discourse in his field and contribute to technological progress on both a regional and global scale.
Research Interest
Dr. L. Chkhartishvili’s research interests lie at the intersection of engineering physics, nanotechnology, and theoretical modeling of complex physical systems. He is particularly focused on the study of nanoscale phenomena, including the quantum mechanical behavior of nanostructured materials and their thermodynamic properties. His work explores how physical principles can be applied to design and analyze advanced materials with applications in electronics, energy systems, and information technologies.
He is also deeply engaged in modeling the electronic, thermal, and structural characteristics of low-dimensional systems, such as graphene and carbon-based nanomaterials. Dr. Chkhartishvili's theoretical studies aim to uncover fundamental relationships that drive performance and stability in engineered materials.
In addition to nanophysics, he is interested in the broader application of physics in engineering innovation, including energy efficiency and material optimization. His interdisciplinary approach integrates theoretical physics, computational analysis, and applied engineering to address cutting-edge technological challenges.
Open Access Policy refers to a set of principles and guidelines aimed at providing unrestricted access to scholarly research and literature. It promotes the free availability and unrestricted use of research outputs, enabling researchers, students, and the general public to access, read, download, and distribute scholarly articles without financial or legal barriers. In this response, I will provide you with an overview of the history and latest resolutions related to Open Access Policy.
Traditionally, in lecture courses on General Physics, the example of waves propagating on the water surface is used for the qualitative description of wave phenomena. At the same time, in corresponding laboratory courses, there are almost no quantitative tasks on the same topic, the purpose of which would be to measure the surface wave characteristics. The reason for this difference must be associated with the complexity of the physical mechanism of generation and propagation of waves on the water surface. In this work, a laboratory problem has... been developed to measure the group velocity of circular waves traveling on the water surface. It uses a standard laboratory water tank equipped with a surface wave generator. The proposed experiment offers an opportunity for quantitative measurement of surface wave characteristics, a dispute of only qualitative observations of wave phenomena commonly found in current curricula, due to the introduction of two improvements. First, to produce the water waves’ rich in-contrast representations on a screen, the optimal generator amplitude is specially set for each experiment; and second, to measure the group wavelength, the device magnification is preliminary calculated based on the laws of geometric optics. The tests carried out have shown that the relative accuracy of these measurements is quite acceptable: within a few percent. The introduction of the problem of surface waves on water into the General Physics laboratory workshop for engineering specialties of technical universities will contribute to improving the quality of mastering the subject by students.
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