Научная статья на тему 'Features of the "Radiation shaking" process in complex environments when exposed to highly intense radiation with a wide energy spectrum'

Features of the "Radiation shaking" process in complex environments when exposed to highly intense radiation with a wide energy spectrum Текст научной статьи по специальности «Физика»

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Текст научной работы на тему «Features of the "Radiation shaking" process in complex environments when exposed to highly intense radiation with a wide energy spectrum»

Features of the "Radiation shaking" process in complex environments when exposed to highly intense radiation with a wide energy spectrum

M.Kh. Ashurov1, I. Nuritdinov1, B.L. Oksengendler2*, S.H. Suleymanov2, S.T. Boyboboeva1, N.N. Nikiforova2, F.A. Iskandarova3

1-Institute of Nuclear Physics AN RUz. Tashkent, village Ulugbek, Khurasan street, Uzbekistan

2- Institute of Materials Science AN RUz. Tashkent, Bodomzor yili 2B, Uzbekistan 3- Nanotechnology Development Center at NUU, Tashkent, Universitetskaya str. 4, Uzbekistan

* [email protected]

Among the many interesting concepts introduced into radiation physics over the past 150 years, universal concepts have always played a special role, and among them radiation shaking [1-5]. In modern radiation physics of a solid body and radiation physics of condensed matter, the role of radiation shaking has increased even more, but also become more complicated; this work is devoted to this problem, concerning multicomponent media (characterized by a set of "size and dimensions", combined dimensions including fractals, hierarchy of structures - such a set of properties of the medium ensures the applicability of the results to Living and Inanimate Nature [4-8]). Our mathematical model has shown that the greatest efficiency of radiation shaking (from shock waves of various origins) is manifested when the time of passage of the shock wave through a metastable object is less than the inverse frequency of the coordinate of the decay reaction. The properties of the breadth of the energy spectrum and the high intensity of radiation provide a high probability of combined excitation of a metastable center considered as a hierarchical structure. The proposed analysis is applied to the cases of radiation exposure to synchrotron, lasers, a large solar Furnace, electron emission accelerators [8,9].

[1] V.L. Indenbom, A new hypothesis on the mechanism of radiation-stimulated processes, JTF Letters, vol.5, pp.489-492 (1979).

[2] P.K. Khabibullaev, B.L. Oksengendler, Yu.V. Pakharukov, The mechanism of radiation shaking in structurally disordered substances, Fizika Tverdogo Tela, vol.28, pp.3132-3133, (1986).

[3] P.K. Khabibullaev, B.L. Oksengendler, Yu.V. Pakharukov, A new hypothesis of radiation resistance of disordered semiconductors, JTF Letters, vol.12, pp.132-1322, (1986).

[4] I.P. Chernov, Ordering the crystal structure by ionizing radiation (the effect of low doses of ionizing radiation), Izv.TPU, vol.303, pp.74, (2000).

[5] I. Nuritdinov, M.Tu. Tashmetov, U.O. Khodzhaev, et al, Influence of electron irradiation on the crystal structure, surface microrelief and bandganp width of the triple crystals of iron doped monoselenide of thallium and indium, Eur. Phys. Tech. J, vol.20, pp.23-32, (2023).

[6] M.Kh. Ashurov, I. Nuritdinov, S.T. Boyboboeva, Spectral-luminescence characteristics of crystals and nanoceramics based BaF2: Ce, Book of abstracts of III International Conference on Nanophotonics, Metamaterials and Photovoltaic (ICNMP-2023), Samarkand, Uzbekistan, pp.38-39, (2023).

[7] M.Kh. Ashurov, I. Nuritdinov, S.T. Boyboboeva, The multiplicity of cerium centers in optical nanoceramics based on BaF2-CeF3. Optics and spectroscopy, vol.131, pp.341-345, (2023).

[8] B.L. Oksengendler, A.Kh. Ashirmetov, F.A. Iskandarova, et al, Interaction of Radiation with Hierarchical Structures, J. Surf. Invest.: X-ray, Synchrotron and Neutron Techniques, vol.17, pp.31-42, (2023).

[9] B.L. Oksengendler, A.Kh. Ashirmetov, N.N. Turaeva, et al, The features of Auger destruction in quasi-one-dimensional objects of inorganic and organic nature, Nuclear Instruments and Methods in Physics Research, pp.66-75, (2022).

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