1962-1969 - Senior laboratory assistant, research intern, assistant at Samarkand State University
1969-1972 - PhD student at Moscow State University
1973-1982 - Assistant, senior lecturer, associate professor of the Department of General Physics, Samarkand State University
1982-1985 - Deputy Dean of the Faculty of Physics, Samarkand State University
1985-1986 - Dean of the Faculty of Physics, Samarkand State University
1986-1993 - Head of the Department of General Physics and Physics of Magnetic Phenomena at Samarkand State University, Head of the University Test Center, Deputy Chairman of the Educational and Methodological Council
1993-2011 - Head of the Department of Physics, General Physics and Magnetic Phenomena, Samarkand State University
2011-2015 - Professor of the Department of General Physics and Magnetism of Samarkand State University
2015 - present - Professor, Department of General Physics, Samarkand State University

Under the guidance of Professor O. Kuvondikov, the following works were completed: “Study of the electrical, magnetic and galvanomagnetic properties of alloys of transition and rare earth metals in solid and liquid states”, “Obtaining magnetic fluids and studying their physical properties”, “Study of the electrical, magnetic and galvanomagnetic properties of rock minerals” rocks containing 3d- and 4f-elements at high temperatures" and "Problems of using innovative technologies for teaching physics in the educational process."
The rapid development of modern science and technology is directly related to the creation of new promising magnetic materials with unique physical and chemical properties and the study of the temperature dependence of their magnetic properties. Currently, in materials science, very promising materials from a scientific and practical point of view, depending on the field of application, are compounds containing 3d and 4f elements, minerals and magnetic fluids. Interest in such materials is due not only to the fact that these materials have various physical properties, such as electrical, magnetic, galvanomagnetic, thermomagnetic, magnetooptical, resonant and other physical properties, but also to their practical significance; they are used as the main working magnetic materials in laser devices and computer technology, applied magnetooptics, various microelectronics devices, magnetoacoustics and other areas.
Particular attention is paid to the issues of the Action Strategy for the further development of the Republic of Uzbekistan, the creation of effective mechanisms for the implementation of scientific achievements. In particular, much attention is paid to the creation of technology for producing new magnetic materials, the study of their electrical, magnetic, galvanomagnetic and optical properties and their practical application. Of particular importance is bringing the scientific results obtained in the year of supporting active entrepreneurship, innovative ideas and technologies to a level that meets the requirements of our time, including the creation of a new generation of devices based on physical processes occurring in magnetic materials and their implementation, as a consequence, It is important to increase the competitiveness and efficiency of products in the magneto-optical and computing industries by creating cheap and economical technologies that are fundamentally different from existing ones.

"1. Salakhitdinova, M.K., Ibragimova, E.M.,Kuvandikov, O.K. Magnetic Properties of Iron Oxide Nanoparticles in the Matrix of Potassium–Aluminoborate Glasses Subjected to Thermoradiation Treatment, Moscow University Physics Bulletin, 2023, 78(4), с 527–530
2. Salakhitdinova, M.K., Ibragimova, E.M., Kuvandikov, O.K. Optical and magnetic properties of iron oxide nanoparticles in the potassium-aluminum-borate glass at thermoradiation treatment, Journal of Magnetism and Magnetic Materials, 2023, 171598
3. Kuvandikov, O.K., Hamrayev, N.S., Rajabov, R.M., Hamrayeva, N.N. Anisotropic scattering of charge carriers in double continuous solid solutions of the niobium-vanadium system, Journal of Physics: Conference Series, 2023, 2573(1), 012022
4. Kuvandikov, O., Usarov, U., Kuvandikov, E. Synergetics in the Mechanics of Deformable Solid, AIP Conference Proceedings, 2022, 2637, 030021
5. Kuvandikov, O.K., Subxankulov, I., Imamnazarov, D.H., Khomitov, S.A. The Nature of Exchange Interaction in Amorphous Alloys Based on Metals of the Iron Group with Metalloids, Metallofizika i Noveishie Tekhnologii, 2022, 44(7), с 823–829
6. Kuvandikov, O.K., Hamraev, N.S., Razhabov, R.M., Eshkulov, A.A., Turdibekov, I. Correlation Between Kinetic and Magnetic Properties of Itermetallic Compounds of Gd−In System in Paramagnetic Region, Russian Physics Journal, 2022, 65(1), с 1–6
7. Kuvandikov, O.K.,Shakarov, K.O., Usarov, U.T., Amonov, B.U., Sulaimonov, O.A. Paramagnetic Properties of Rare Earth Chromium Borates at High Temperatures, Metallofizika i Noveishie Tekhnologii, 2022, 44(2), с 151–157
8. Kuvandikov, O.K., Subkhankulov, I., Amonov, B.U., Imamnazarov, D.H. Physical Properties of High-Cobalt Amorphous Alloys, Metallofizika i Noveishie Tekhnologii, 2021, 43(12), с 1601–1069
9. Kuvandikov, O.K., Leonyuk, N.I., Mal’tsev, V.V., Amonov, B.U., Sulaimonov, O.A. Magnetic Parameters of Rare-Earth Chromium Borate under High Temperatures, Russian Physics Journal, 2021, 64(5), с 956–960"