Namangan Institute of Engineering and Technology
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10.25.2023
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SYNTHESIS AND APPLICATION OF NANOSTRUCTURED MATERIALS IN NUCLEAR PHYSICS
Zoltan GALA
University of Zeged, Hungary
Csanak Edith Dla
Obuda University, Hungary
Annotation. This comprehensive article explores the cutting-edge
developments in the
synthesis and application of nanostructured materials within the field of nuclear physics. It
highlights how these advancements are transforming
nuclear technology,
from enhancing the
efficiency of nuclear reactors to improving radiation shielding and detection. The article provides a
detailed analysis of current research trends, challenges, and future prospects in this innovative and
rapidly evolving field.
Keywords. Nanostructured Materials, Nuclear Physics, Nanotechnology, Radiation Shielding,
Nuclear Reactors, Synthesis Techniques, Radiation Detection, Nuclear Safety.
Introduction. The integration of nanotechnology into nuclear
physics has opened new
horizons in the design and functionality of nuclear systems. Nanostructured materials, characterized
by their minuscule size and large surface area, bring unique properties that are pivotal in addressing
some of the longstanding challenges in nuclear technology. This article delves into various aspects
of the synthesis of these materials and their diverse applications in nuclear physics, from energy
generation to safety enhancements.
