Пошуковий запит: (<.>U=В381.531<.>) |
Загальна кількість знайдених документів : 92
Представлено документи з 1 до 20
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| 1. |
Grinyov B. V. Тechnology for deep purification of cesium iodide single crystal production wastes from heavy metals // Наука та інновації. - 2020. - № 1.
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| 2. |
Gektin A. Advanced approach to estimation scintillator energy resolution // Functional Materials. - 2020. - 27, № 1.
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| 3. |
Gektin A. V. Advanced method of scintillator energy resolution test // Functional Materials. - 2019. - 26, № 1.
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| 4. |
Zhmurin P. N. Investigation of the scintillation properties of plastic scintillator based on 2,5-diaryloxadiazole alkyl derivative // Functional Materials. - 2019. - 26, № 1.
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| 5. |
Даниленко Ю. А. Уніфікація параметрів сцинтиляційної техніки з урахуванням інноваційного розвитку : автореф. дис. ... канд. техн. наук : 05.01.02. — Харків, 2019
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| 6. |
Danylenko Yu. Forecasting of scintillation equipment development for anticipatory standartization // Functional Materials. - 2019. - 26, № 3.
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| 7. |
Tarasov V. O. Influence of surface treatment conditions for organic crystalline scintillators on their scintillation characteristics // Functional Materials. - 2018. - 25, № 1.
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| 8. |
Boyarintsev A. Yu. Radiation resistance of composite scintillators containing grains of Y2SiO5:Ce or Y3Al5O12:Ce obtained by solid-phase synthesis // Functional Materials. - 2018. - 25, № 1.
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| 9. |
Ryzhikov V. D. Multi-layered composite detectors for neutron detection // Functional Materials. - 2018. - 25, № 1.
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| 10. |
Gurkalenko Yu. A. The plastic scintillator activated with fluorinated 3-hydroxyflavone // Functional Materials. - 2017. - 24, № 2.
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| 11. |
Rebrova N. V. Scintillation properties of europium doped RbCaCl3 crystals // Functional Materials. - 2017. - 24, № 2.
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| 12. |
Zhmurin P. N. The plastic scintillator for n/gamma-discrimination with alkyl-substituted PPO derivative // Functional Materials. - 2017. - 24, № 3.
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| 13. |
Gektin A. V. Fluctuations of ionizing particle track structure and energy resolution of scintillators // Functional Materials. - 2017. - 24, № 4.
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| 14. |
Zhmurin P. N. Fast plastic scintillator with the high light yield // Functional Materials. - 2016. - 23, № 3.
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| 15. |
Gurkalenko Yu. A. Radiation-hard plastic scintillators with 3-hydroxyflavone derivatives // Functional Materials. - 2016. - 23, № 1.
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| 16. |
Tupitsyna I. A. X-ray and photo-excited luminescence of ZnWO4 nanoparticles with different size and morphology // Functional Materials. - 2016. - 23, № 4.
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| 17. |
Zhmurin P. N. Radiation-hard plastic scintillator with increased mechanical strength // Functional Materials. - 2015. - 22, № 2.
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| 18. |
Velmozhnaya E. S. Mixed-ligand complexes of gadolinium carboxylates containing unsaturated bonds in plastic scintillators // Functional Materials. - 2015. - 22, № 2.
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| 19. |
Физика сцинтилляторов. Материалы, методы, аппаратура : материалы конф. "Инженерия сцинтилляционных материалов и радиационные технологии" (ИСМАРТ 2014). — Харьков: ИСМА, 2015 - (Состояние и перспективы развития функциональных материалов для науки и техники).
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| 20. |
Gorbacheva T. E. Features of radioluminescence of solid organic scintillators with different degrees of supramolecular ordering // Functional Materials. - 2015. - 22, № 2.
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