2021, Guschin, V. A., Nikiforova, M. A., Siniavin, A. E., Russu, L. I., Zavestovskaya, I. N., Fronya, A. A., Grigoryeva, M. S., Завестовская, Ирина Николаевна, Фроня, Анастасия Андреевна, Григорьева, Мария Сергеевна

© 2021, Allerton Press, Inc.Abstract: The results of experimental studies of the effect of ultraviolet radiation in the UVA wavelength range safe for humans on the β-coronavirus infective properties are presented. Bovine coronavirus not pathogenic for humans is selected as a prototype of the COVID-19 (SARS-CoV-2) pathogenic agent. LEDs with wavelengths of 371 nm and 401 nm are used as a radiation source. It is shown that a dose-dependent decrease in the virus infectious titer is observed for both UVA wavelengths.

2023, Rudyy, A. V., Fronya, A. A., Zavestovskaya, I. N., Фроня, Анастасия Андреевна, Завестовская, Ирина Николаевна

2024, Fronya, A. A., Donchenko, D. V., Mavreshko, E. I., Grigorieva, M. S., Zavestovskaya, I. N., Фроня, Анастасия Андреевна, Маврешко, Егор Игоревич, Григорьева, Мария Сергеевна, Завестовская, Ирина Николаевна

2024, Zavestovskaya,I.N., Fronya,A.A., Tupitsyn,I.M., Cheshev,E.A., Grigor’eva,M.S., Mavreshko,E.I., Завестовская, Ирина Николаевна, Фроня, Анастасия Андреевна, Чешев, Евгений Анатольевич, Григорьева, Мария Сергеевна, Маврешко, Егор Игоревич

2020, Krokhin, O. N., Zavestovskaya, I. N., Yashin, I. I., Fronya, A. A., Завестовская, Ирина Николаевна, Яшин, Игорь Иванович, Фроня, Анастасия Андреевна

2023, Grigoryeva, M. S., Kutlubulatova, I. A., Lukashenko, S. Yu., Fronya, A. A., Zavestovskaya, I. N., Кутлубулатова, Ирина Александровна, Фроня, Анастасия Андреевна, Завестовская, Ирина Николаевна

The acquisition of reliable knowledge about the mechanism of short laser pulse interactions with semiconductor materials is an important step for high-tech technologies towards the development of new electronic devices, the functionalization of material surfaces with predesigned optical properties, and the manufacturing of nanorobots (such as nanoparticles) for bio-medical applications. The laser-induced nanostructuring of semiconductors, however, is a complex phenomenon with several interplaying processes occurring on a wide spatial and temporal scale. In this work, we apply the atomistic-continuum approach for modeling the interaction of an fs-laser pulse with a semiconductor target, using monolithic crystalline silicon (c-Si) and porous silicon (Si). This model addresses the kinetics of non-equilibrium laser-induced phase transitions with atomic resolution via molecular dynamics, whereas the effect of the laser-generated free carriers (electron-hole pairs) is accounted for via the dynamics of their density and temperature. The combined model was applied to study the microscopic mechanism of phase transitions during the laser-induced melting and ablation of monolithic crystalline (c-Si) and porous Si targets in a vacuum. The melting thresholds for the monolithic and porous targets were found to be 0.32 J/cm2 and 0.29 J/cm2, respectively. The limited heat conduction mechanism and the absence of internal stress accumulation were found to be involved in the processes responsible for the lowering of the melting threshold in the porous target. The results of this modeling were validated by comparing the melting thresholds obtained in the simulations to the experimental values. A difference in the mechanisms of ablation of the c-Si and porous Si targets was considered. Based on the simulation results, a prediction regarding the mechanism of the laser-assisted production of Si nanoparticles with the desired properties is drawn.

2022, Gushchin, V. A., Russu, L. I., Cheshev, E. A., Koromyslov, A. L., Zavestovskaya, I. N., Fronya, A. A., Grigor'eva, M. S., Завестовская, Ирина Николаевна, Фроня, Анастасия Андреевна, Григорьева, Мария Сергеевна

© 2022 Kvantovaya Elektronika and IOP Publishing Limited.We report the results of the development of an experimental stand based on UVA light-emitting diodes (UVA LEDs) with radiation wavelengths of 385 and 395 nm for studying experimentally the inactivation of viruses of the coronavirus family, including SARS-CoV-2. Methodological grounds are presented for determining the inactivation dose that provides a predetermined decrease in the virus titre under the impact of UVA radiation. The effect of the diode radiation divergence on the virus photoinactivation process is investigated. It is shown that UVA LEDs can be used to reduce the virus titre by 4 orders of magnitude.

2024, Завестовская, И. Н., Фроня, А. А., Тупицын, И. М., Гущин, В. А., Синявин, А. Э., Руссу, Л. И., Чешев, Е. А., Коромыслов, А. Л., Григорьева, М. С., Маврешко, Е. И., Маврешко, Егор Игоревич, Завестовская, Ирина Николаевна, Григорьева, Мария Сергеевна, Фроня, Анастасия Андреевна, Чешев, Евгений Анатольевич

Представлены результаты экспериментальных исследований по воздействию ультрафиолетового (UV) излучения в широком спектральном диапазоне 270 – 405 нм на бычий коронавирус. Определена чувствительность бычьего коронавируса к UV излучению, проведен сравнительный анализ данных, построены спектры действия. Показано, что в диапазоне UV-A возможна инактивации бычьего коронавируса, что позволит подобрать безопасные источники излучения для использования в общественных местах в присутствии человека