Пошуковий запит: (<.>U=В381.531<.>) |
Загальна кількість знайдених документів : 92
Представлено документи з 1 до 20
|
| | |
| 1. |
Ryzhikov V. D. 1D- and 2D-matrices scintillation elements on the crystals base ZnSe(Te), CdWO4, CsI(Tl), Bi3Ge4O12 // Functional Materials. - 2004. - 11, № 1.
|
| 2. |
Pogorelova N. V. 2,5-Diaryloxazoles and 2,5-diaryl-1,3,4-oxadiazoles as luminescent dopants for polyorganosiloxane scintillators // Functional Materials. - 2000. - 7, № 1.
|
| 3. |
Gektin A. Advanced approach to estimation scintillator energy resolution // Functional Materials. - 2020. - 27, № 1.
|
| 4. |
Gektin A. V. Advanced method of scintillator energy resolution test // Functional Materials. - 2019. - 26, № 1.
|
| 5. |
Burachas S. F. Advanced scintillation single crystals based on complex oxides with large atomic number // Semiconductor Physics, Quantum Electronics and Optoelectronics. - 2000. - 3, № 2.
|
| 6. |
Zorenko Yu. Application of scintillators based on single-crystalline Lu3Al5 O12 : Ce3+ films for radiation monitoring in biology and medicine // Semiconductor Physics, Quantum Electronics and Optoelectronics. - 2000. - 3, № 2.
|
| 7. |
Nemchenok I. B. Boron-loaded liquid scintillator // Functional Materials. - 2013. - 20, № 3.
|
| 8. |
Vasetsky S. I. Characteristics changes of unsealed NaI(Tl) detector under atmospheric moisture effect // Functional Materials. - 1998. - 5, № 4.
|
| 9. |
Zaslavsky B. G. Comparative analysis of thermal conditions at growing of large CsI(Tl) scintillation single crystals by automated pulling from the melt using cylindrical and conical crucibles // Functional Materials. - 1999. - 6, № 4.
|
| 10. |
Litichevskyi V. Composite scintillation panels and elements based on fine-grained granules of crushed crystals // Functional Materials. - 2013. - 20, № 2.
|
| 11. |
Karavaeva N. L. Composite scintillators for a wide range of problems in detection of ionizing radiation // Functional Materials. - 2014. - 21, № 4.
|
| 12. |
Galunov N. Z. Determination of the light yield of organic scintillators // Functional Materials. - 2013. - 20, № 3.
|
| 13. |
Grinyov B. V. Effect of alkali halide crystal anisotropy on strength characteristics of scintillation detectors // Functional Materials. - 1998. - 5, № 4.
|
| 14. |
Ratner M. A. Effect of dislocations on radiation hardness of scintillation crystals // Functional Materials. - 1999. - 6, № 4.
|
| 15. |
Luchechko A. P. Effect of the growing features on luminescence and thermal glow of CdWO4 scintillation crystals // Functional Materials. - 2005. - 12, № 2.
|
| 16. |
Adadurov A. F. Efficiency improvement of polystyrene-based plastic scintillators // Functional Materials. - 2009. - 16, № 4.
|
| 17. |
Ryzhikov V. Energy characteristics of scintillators for X-ray introscopy // Functional Materials. - 2004. - 11, № 1.
|
| 18. |
Galenin E. Engineering of mixed Bi4(GexSi1-x)3O12 scintillation crystals // Functional Materials. - 2015. - 22, № 4.
|
| 19. |
Zhmurin P. N. Fast plastic scintillator with the high light yield // Functional Materials. - 2016. - 23, № 3.
|
| 20. |
Tarasenko O. A. Features of charge pairs recombination in the track regions of organic solid scintillators // Functional Materials. - 2012. - 19, № 4.
|
| | |
НОВІ
ПОШУК
Книжкові видання та компакт-диски
