Пошуковий запит: (<.>U=З861.1$<.>) |
Загальна кількість знайдених документів : 133
Представлено документи з 1 до 20
|
| |
1. |
Alexeyev A. N. Analysis of Singularity Properties of the Radiation Field in Low-Mode Optical Fibres // Ukr. J. Phys. Optics. - 2006. - 7, № 1.
|
2. |
Bobitski Y. W. Coupling between propagated modes in optical fibres with periodical structures // Semiconductor Physics, Quantum Electronics and Optoelectronics. - 2001. - 4, № 3.
|
3. |
Adhish V. Raval Deposition and characterization of indium selenide thin films for opto-electronic devices // J. of Nano- and Electronic Physics. - 2020. - 12, № 2.
|
4. |
Shevchik-Shekera A. V. Design of optical components for terahertz/sub-terahertz imaging systems // Semiconductor Physics, Quantum Electronics and Optoelectronics. - 2015. - 18, № 3.
|
5. |
Haider Ali Muse Fiber-optic gyroscopes based on photonic-crystal fibers // Вост.-Европ. журн. передовых технологий. - 2015. - № 1/5.
|
6. |
Proszak W. Fibre-optic humidity sensor with active element based on CoCl2. — 2005 // Вісн. Нац. ун-ту "Львів. політехніка".
|
7. |
Bezprozvannykh G. V. Influence of radiation on properties of materials and losses of optical cables. — 2005 // Оптико-електрон. інформ.-енерг. технології.
|
8. |
Alexeyev C. N. Pancharatnam's phase induced by spin-orbit interaction in weakly guiding twisted elliptical fibres // Ukr. J. Phys. Optics. - 2007. - 8, № 1.
|
9. |
Ageev L. A. Photoinduced diffraction grating in AgCl - Ag film on surface of silicone gel composition SYLGARD-184 // Functional Materials. - 2016. - 23, № 1.
|
10. |
Donchenko O. I. Research of the effect of the chemical composition of the optical fiber glass on the signal specific chromatic dispersion // Наук. пр. ОНАЗ ім. О. С. Попова. - 2018. - № 2.
|
11. |
Vlaskina S. I. Silicon carbide LED // Semiconductor Physics, Quantum Electronics and Optoelectronics. - 2002. - 5, № 1.
|
12. |
Alexeyev N. M. Spin-orbit interaction in a generic vortex field transmitted through an elliptic fiber // Semiconductor Physics, Quantum Electronics and Optoelectronics. - 2000. - 3, № 4.
|
13. |
Bushma A. V. Static realization of reliable position indication // Semiconductor Physics, Quantum Electronics and Optoelectronics. - 2002. - 5, № 1.
|
14. |
Lohani A. P.Ch. Study of work function changes of La/W(110) using electron beam retarding potential technique. — 2001 // Металлофизика и новейшие технологии.
|
15. |
Bondarenko O. V. Technique of determination of modules tube diameter and possible lengthening of optical cables construction. — 2011 // Фотоэлектроника.
|
16. |
Balieiev M. S. The directional optical coupler based on anisotropic optical fiber // Наук. пр. ОНАЗ ім. О. С. Попова. - 2018. - № 2.
|
17. |
Grygoruk V. The mode composition and field distribution inside and outside of the silica-based sub-wavelength fibers with an air optical cladding // Вісн. Київ. нац. ун-ту. Сер. Радіофізика та електроніка. - 2012. - Вип. 18.
|
18. |
Odegov N. Theoretical study of the dispersion effects occurring at optical fiber connections // Вост.-Европ. журн. передовых технологий. - 2019. - № 2/5.
|
19. |
Zegdou S. Theoretical study of the effect of packing on the temperature of fiber optic cables // J. of Nano- and Electronic Physics. - 2022. - 14, № 5.
|
20. |
Bondarenko O. V. Thermomechanical influence on optical fibers during the production and operation of optical cable // Наук. пр. ОНАЗ ім. О. С. Попова. - 2019. - № 1.
|
| |