Пошуковий запит: (<.>U=В381.59$<.>) |
Загальна кількість знайдених документів : 115
Представлено документи з 1 до 20
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| 1. |
Tkach M. V. Active conductivity of plane two-barrier resonance tunnel structure as operating element of quantum cascade laser or detector // Condensed Matter Physics. - 2011. - 14, № 2.
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| 2. |
Kosyachenko L. A. Active region of CdTe X-/<$E bold gamma>-ray detector with Schottky diode // Semiconductor Physics, Quantum Electronics and Optoelectronics. - 2005. - 8, № 2.
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| 3. |
Grigoryev A. N. Alpha-, beta-, gamma-radiometric measurements using semiconductor detectors // Functional Materials. - 2014. - 21, № 3.
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| 4. |
Muminov R. A. Application of additional leveling drift process to improve the electrophysical parameters of large sized Si (Li) p-i-n structures // J. of Nano- and Electronic Physics. - 2020. - 12, № 1.
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| 5. |
Panasenko I. V. CBM experiment. Characterization studies of the detector modules for silicon tracking system // Ядер. фізика та енергетика. - 2013. - 14, № 3.
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| 6. |
Abyzov A. S. Correlation between spectrometric ability and physical properties of semiconductor detectors // Functional Materials. - 2000. - 7, № 4.
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| 7. |
Dubina V. N. Definition of contribution and type of particles in mixed signal detectors // East Europ. J. of Physics. - 2014. - 1, № 3.
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| 8. |
Zakharchenko A. A. Determination of sensitivity of semiconductor detectors of gamma-radiation. — 2012 // Вісн. Харк. нац. ун-ту. Сер. фіз. "Ядра, частинки, поля".
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| 9. |
Zorenko A. V. Development and investigation of microwave radiation sources and detector sections using SBDs within the 220 - 400 GHz frequency range // Semiconductor Physics, Quantum Electronics and Optoelectronics. - 2011. - 14, № 4.
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| 10. |
Kudin K. A. Effect of <$E bold roman CO sub 3 sup 2-> and <$E bold roman OH sup -> impurities on thermal growing conditions of large-size NaI:Tl crystals and their quality // Functional Materials. - 2011. - 18, № 2.
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| 11. |
Seti Yu. O. Effect of confined phonons on temperature renormalization of spectral characteristics of quantum cascade detector operating in far-infrared range // J. of Nano- and Electronic Physics. - 2021. - 13, № 2.
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| 12. |
Kondrik A. I. Effect of irradiation on properties of CdTe detectors // East Europ. J. of Physics. - 2014. - 1, № 1.
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| 13. |
Vokhmyanina K. A. Experimental setup for studying the processes occurring during interaction of fast electrons with matter // Журн. нано- та електрон. фізики. - 2018. - 10, № 6.
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| 14. |
Zorenko A. V. Hybrid-integrated version of SBD amplitude detector intended for the 400 - 600 GHz frequency range // Semiconductor Physics, Quantum Electronics and Optoelectronics. - 2014. - 17, № 4.
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| 15. |
Tarasov V. A. Influence of manufacturing conditions of detectors based on crystals of SrI2:Eu on their scintillation characteristics // Functional Materials. - 2019. - 26, № 4.
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| 16. |
Bozhko V. P. Method for energy scale calibration of the scintillation detector at registration of recoil protons // Functional Materials. - 2009. - 16, № 2.
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| 17. |
Prokopenko O. Microwave energy harvesting using uncoupled threshold spin-torque microwave detectors // Вісн. Київ. нац. ун-ту. Сер. Радіофізика та електроніка. - 2012. - Вип. 18.
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Zakharchenko A. A. Monte-Carlo simulation of response of CdZnTe detectors of beta-radiation // East Europ. J. of Physics. - 2014. - 1, № 3.
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| 19. |
Ahmadov F. New phoswich detector based on LFS and p-terphenyl scintillators coupled to micro pixel avalanche photodiode // Functional Materials. - 2017. - 24, № 2.
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| 20. |
Khetselius O. Yu. On sensing nuclei of the lanthanide isotopes by means of laser spectroscopy of hyperfine structure: <$E bold roman {nothing sup 165 Ho}>, <$E bold roman {nothing sup 169 Tm}>. — 2008 // Сенсор. електрон. і мікросистем. технології.
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