Zobrazeno 1 - 5
of 5
pro vyhledávání: '"G Yu Borkina"'
Autor:
A S Konov, N I Karpychev, S. Ya. Rusanov, Evgenii M Dianov, A Yu Laptev, A Ts Andreev, G Yu Borkina, N I Sokolov, S M Mazavin, Tatiana A Pryakhina, A S Yushin, Mikhail M. Bubnov
Publikováno v:
Soviet Journal of Quantum Electronics. 10:1279-1281
An investigation was made of the numerical aperture and excess losses in fiber waveguides with a silicone reflecting cladding at temperatures from –100°C to +20°C. A rapid rise of the optical losses was due to an increase in the refractive index
Autor:
A G Shchebunyaev, Mikhail M. Bubnov, A S Konov, G Yu Borkina, A. A. Abramov, V N Myakov, V S Naumov, A N Gur'yanov, N N Vechkanov, T V Kudim, Evgenii M Dianov
Publikováno v:
Soviet Journal of Quantum Electronics. 15:1287-1289
An investigation was made of the additional losses observed at temperatures from – 120 °C to + 20 °C in fiber-optic modules with different types of polymer cladding. Crystallization of a soft silicone elastomer in the primary cladding resulted in
Autor:
Mikhail M. Bubnov, V V Voĭtsekhovskiĭ, Tatiana A Pryakhina, G Yu Borkina, Evgenii M Dianov, A Ts Andreev, V. M. Kotov
Publikováno v:
Soviet Journal of Quantum Electronics. 11:1095-1096
A study was made of the influence of γ irradiation on the temperature dependences of the optical losses in quartz glass–polymer fiber waveguides. The working temperature range was extended by γ irradiation to subzero temperatures in the case of t
Autor:
V N Myakov, Mikhail M. Bubnov, G Yu Borkina, V. M. Kotov, A. A. Abramov, Evgenii M Dianov, N N Vechkanov, A N Gur'yanov
Publikováno v:
Soviet Journal of Quantum Electronics. 15:546-547
An investigation of the temperature dependence of the additional optical losses in fiber waveguides prepared by the chemical vapor deposition method revealed for the first time that crystallization at temperatures below – 40 °C of a soft silicone
Publikováno v:
Electronics Letters. 21:805
Investigations of optical fibre losses in the range from -100°C to 20°C have shown that silicone crystallisation causes a significant loss increase in coated MCVD fibres, irrespective of the secondary jacket material. The application of noncrystall