Сегодняшняя именинница Лив Тайлер – дочь фронтмена Aerosmith Стивена Тайлера и модели Бебе Бюэлл – сумела пробиться в Голливуде и завоевать любовь миллионов поклонников по всему миру. И она такая не одна.
Дорогие пользователи! С 15 декабря Форум Леди закрыт для общения. Выражаем благодарность всем нашим пользователям, принимавшим участие в дискуссиях и горячих спорах. Редакция сосредоточится на выпуске увлекательных статей и новостей, которые вы сможете обсудить в комментариях. Не пропустите!
processing, sensors, and photonic functional components,
manufactured at Białystok University of Technology
in Dorosz Fibre Optics Laboratory
R.S
Warsaw University of Technology, Institute of Electronic Systems, 15/19 Nowowiejska St., 00-665 Warsaw, Poland
Abstract. Tailored, specialty optical fibres, made of complex glasses, called collectively as a non-telecommunications or instrumentation
family, serve for various optical wave transforma
distance lossless and dispersionless, undistorted transmission. Research work on these fibres started during the late seventies of the last
century in ITME/Warsaw and in Białystok University of Technology at the Faculty of Electrical Engineering. The initiator of this research
at Glass Works Białystok [39] and Białystok University of Technology [4] was, then a very young engineer, Jan Dorosz. Over 35 years of
development of the technological team, under his skilful management, resulted in a top laboratory which today does research at the cutting
edge of the photonics science. The Białystok Optical Fibre Technology Laboratory (OFTL) is now a pearl in the crown of his Alma Mater.
The paper opens this special issue of the PAS Bulletin on Technical
developments in the area of optical fibre photonics, which were carried out at his active laboratory.
processing, sensors, and photonic functional components,
manufactured at Białystok University of Technology
in Dorosz Fibre Optics Laboratory
R.S
Warsaw University of Technology, Institute of Electronic Systems, 15/19 Nowowiejska St., 00-665 Warsaw, Poland
Abstract. Tailored, specialty optical fibres, made of complex glasses, called collectively as a non-telecommunications or instrumentation
family, serve for various optical wave transforma
distance lossless and dispersionless, undistorted transmission. Research work on these fibres started during the late seventies of the last
century in ITME/Warsaw and in Białystok University of Technology at the Faculty of Electrical Engineering. The initiator of this research
at Glass Works Białystok [39] and Białystok University of Technology [4] was, then a very young engineer, Jan Dorosz. Over 35 years of
development of the technological team, under his skilful management, resulted in a top laboratory which today does research at the cutting
edge of the photonics science. The Białystok Optical Fibre Technology Laboratory (OFTL) is now a pearl in the crown of his Alma Mater.
The paper opens this special issue of the PAS Bulletin on Technical
developments in the area of optical fibre photonics, which were carried out at his active laboratory.
processing, sensors, and photonic functional components,
manufactured at Białystok University of Technology
in Dorosz Fibre Optics Laboratory
R.S
Warsaw University of Technology, Institute of Electronic Systems, 15/19 Nowowiejska St., 00-665 Warsaw, Poland
Abstract. Tailored, specialty optical fibres, made of complex glasses, called collectively as a non-telecommunications or instrumentation
family, serve for various optical wave transforma
distance lossless and dispersionless, undistorted transmission. Research work on these fibres started during the late seventies of the last
century in ITME/Warsaw and in Białystok University of Technology at the Faculty of Electrical Engineering. The initiator of this research
at Glass Works Białystok [39] and Białystok University of Technology [4] was, then a very young engineer, Jan Dorosz. Over 35 years of
development of the technological team, under his skilful management, resulted in a top laboratory which today does research at the cutting
edge of the photonics science. The Białystok Optical Fibre Technology Laboratory (OFTL) is now a pearl in the crown of his Alma Mater.
The paper opens this special issue of the PAS Bulletin on Technical
developments in the area of optical fibre photonics, which were carried out at his active laboratory.
processing, sensors, and photonic functional components,
manufactured at Białystok University of Technology
in Dorosz Fibre Optics Laboratory
R.S
Warsaw University of Technology, Institute of Electronic Systems, 15/19 Nowowiejska St., 00-665 Warsaw, Poland
Abstract. Tailored, specialty optical fibres, made of complex glasses, called collectively as a non-telecommunications or instrumentation
family, serve for various optical wave transforma
distance lossless and dispersionless, undistorted transmission. Research work on these fibres started during the late seventies of the last
century in ITME/Warsaw and in Białystok University of Technology at the Faculty of Electrical Engineering. The initiator of this research
at Glass Works Białystok [39] and Białystok University of Technology [4] was, then a very young engineer, Jan Dorosz. Over 35 years of
development of the technological team, under his skilful management, resulted in a top laboratory which today does research at the cutting
edge of the photonics science. The Białystok Optical Fibre Technology Laboratory (OFTL) is now a pearl in the crown of his Alma Mater.
The paper opens this special issue of the PAS Bulletin on Technical
developments in the area of optical fibre photonics, which were carried out at his active laboratory.
processing, sensors, and photonic functional components,
manufactured at Białystok University of Technology
in Dorosz Fibre Optics Laboratory
R.S
Warsaw University of Technology, Institute of Electronic Systems, 15/19 Nowowiejska St., 00-665 Warsaw, Poland
Abstract. Tailored, specialty optical fibres, made of complex glasses, called collectively as a non-telecommunications or instrumentation
family, serve for various optical wave transforma
distance lossless and dispersionless, undistorted transmission. Research work on these fibres started during the late seventies of the last
century in ITME/Warsaw and in Białystok University of Technology at the Faculty of Electrical Engineering. The initiator of this research
at Glass Works Białystok [39] and Białystok University of Technology [4] was, then a very young engineer, Jan Dorosz. Over 35 years of
development of the technological team, under his skilful management, resulted in a top laboratory which today does research at the cutting
edge of the photonics science. The Białystok Optical Fibre Technology Laboratory (OFTL) is now a pearl in the crown of his Alma Mater.
The paper opens this special issue of the PAS Bulletin on Technical
developments in the area of optical fibre photonics, which were carried out at his active laboratory.