Персона: Федоров, Сергей Григорьевич
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Институт лазерных и плазменных технологий
Стратегическая цель Института ЛаПлаз – стать ведущей научной школой и ядром развития инноваций по лазерным, плазменным, радиационным и ускорительным технологиям, с уникальными образовательными программами, востребованными на российском и мировом рынке образовательных услуг.
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Сергей Григорьевич
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- ПубликацияТолько метаданныеEnsuring the unity of measurements of the neutron radiation rate absorbed dose in the field of clinical neutron radiation dosimetry(2022) Fedorov, S. G.; Berlyand, A. V.; Dyachenko, V. M.; Федоров, Сергей ГригорьевичAbstract Development of neutron radiation therapy arises the question of ensuring the uniformity of measurements of the absorbed dose and the absorbed dose rate of neutron radiation. FGUP “VNIIFTRI” improved the primary method and means of reproducing the unit of neutron radiation absorbed dose rate within the framework of improving the State primary standard of units of absorbed dose rate and neutron dose equivalent rate GET 117-2010. A set of ionization chambers has been created and the upper value of the reproduction of the unit of absorbed dose rate of neutron radiation has been expanded. A hardware-methodical complex has also been developed for transferring a unit of absorbed dose rate of neutron radiation to nuclear physics facilities used in neutron radiation therapy. As a result the expanded relative uncertainty of reproduction of the unit of absorbed dose rate does not exceed 3%, the expanded relative uncertainty of the transmission method does not exceed 0.5%. The resulting level of accuracy is in line with the recommendations used in neutron beam therapy.
- ПубликацияТолько метаданныеUsing a Lithium Glass Scintillator to Record Neutron Radiation(2019) Fedorov, S. G.; Федоров, Сергей Григорьевич© 2019, Springer Science+Business Media, LLC, part of Springer Nature. Studies have been performed to improve the accuracy of energy measurements of neutron fields and to improve the spectrometric analysis of neutron radiation fields using scintillation detectors. The use of a scintillation detector based on 6 Li 2 O lithium glasses of various diameters and thicknesses for recording neutron radiation energy, 0.4–15·10 6 eV, is considered. The main characteristics of this scintillation detector and the results of measurements obtained with it are compared with the characteristics and results of measurements of the scintillator using LiI (Eu). Spherical moderators with diameters of 70–300 mm were used for scintillation detector operation.