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of Technology, established and run for many years by
Jan Dorosz, has a long tradition, now of over 35 years, of
intensive and very creative work [1–73]. The Laboratory specialization
were (and are) soft, multicompone
fibres made by modified multi-crucible (MMT) and rod-intube
(RiT) technologies [24, 28]. Now, the Laboratory enters
also the advanced modified CVD technologies. During
this long period, the laboratory provided countless samples
of spec
and photonic laboratories - university and industry
based. Out of these finely designed fibres, numerable and
useful functional components, devices, sensors, and optical
sources have been made. Some of the designed
like multicore constructions, were really if not the first, then
very close to the first ones worldwide [5]. Some pilot applications
were striking at that time [7, 16]. The results from this
Laboratory, and a few tens of other ones which used Białysto
fibres, have been published worldwide in a few hundred of
well positioned and well cited papers [17, 18, 39, 41]. Some
major families of the specialty fibres researched, manufactured
and characterized at Białystok Optical Fibre Technology Laboratory
and next used in many practical application
experiments included:
of Technology, established and run for many years by
Jan Dorosz, has a long tradition, now of over 35 years, of
intensive and very creative work [1–73]. The Laboratory specialization
were (and are) soft, multicompone
fibres made by modified multi-crucible (MMT) and rod-intube
(RiT) technologies [24, 28]. Now, the Laboratory enters
also the advanced modified CVD technologies. During
this long period, the laboratory provided countless samples
of spec
and photonic laboratories - university and industry
based. Out of these finely designed fibres, numerable and
useful functional components, devices, sensors, and optical
sources have been made. Some of the designed
like multicore constructions, were really if not the first, then
very close to the first ones worldwide [5]. Some pilot applications
were striking at that time [7, 16]. The results from this
Laboratory, and a few tens of other ones which used Białysto
fibres, have been published worldwide in a few hundred of
well positioned and well cited papers [17, 18, 39, 41]. Some
major families of the specialty fibres researched, manufactured
and characterized at Białystok Optical Fibre Technology Laboratory
and next used in many practical application
experiments included:
of Technology, established and run for many years by
Jan Dorosz, has a long tradition, now of over 35 years, of
intensive and very creative work [1–73]. The Laboratory specialization
were (and are) soft, multicompone
fibres made by modified multi-crucible (MMT) and rod-intube
(RiT) technologies [24, 28]. Now, the Laboratory enters
also the advanced modified CVD technologies. During
this long period, the laboratory provided countless samples
of spec
and photonic laboratories - university and industry
based. Out of these finely designed fibres, numerable and
useful functional components, devices, sensors, and optical
sources have been made. Some of the designed
like multicore constructions, were really if not the first, then
very close to the first ones worldwide [5]. Some pilot applications
were striking at that time [7, 16]. The results from this
Laboratory, and a few tens of other ones which used Białysto
fibres, have been published worldwide in a few hundred of
well positioned and well cited papers [17, 18, 39, 41]. Some
major families of the specialty fibres researched, manufactured
and characterized at Białystok Optical Fibre Technology Laboratory
and next used in many practical application
experiments included:
of Technology, established and run for many years by
Jan Dorosz, has a long tradition, now of over 35 years, of
intensive and very creative work [1–73]. The Laboratory specialization
were (and are) soft, multicompone
fibres made by modified multi-crucible (MMT) and rod-intube
(RiT) technologies [24, 28]. Now, the Laboratory enters
also the advanced modified CVD technologies. During
this long period, the laboratory provided countless samples
of spec
and photonic laboratories - university and industry
based. Out of these finely designed fibres, numerable and
useful functional components, devices, sensors, and optical
sources have been made. Some of the designed
like multicore constructions, were really if not the first, then
very close to the first ones worldwide [5]. Some pilot applications
were striking at that time [7, 16]. The results from this
Laboratory, and a few tens of other ones which used Białysto
fibres, have been published worldwide in a few hundred of
well positioned and well cited papers [17, 18, 39, 41]. Some
major families of the specialty fibres researched, manufactured
and characterized at Białystok Optical Fibre Technology Laboratory
and next used in many practical application
experiments included:
of Technology, established and run for many years by
Jan Dorosz, has a long tradition, now of over 35 years, of
intensive and very creative work [1–73]. The Laboratory specialization
were (and are) soft, multicompone
fibres made by modified multi-crucible (MMT) and rod-intube
(RiT) technologies [24, 28]. Now, the Laboratory enters
also the advanced modified CVD technologies. During
this long period, the laboratory provided countless samples
of spec
and photonic laboratories - university and industry
based. Out of these finely designed fibres, numerable and
useful functional components, devices, sensors, and optical
sources have been made. Some of the designed
like multicore constructions, were really if not the first, then
very close to the first ones worldwide [5]. Some pilot applications
were striking at that time [7, 16]. The results from this
Laboratory, and a few tens of other ones which used Białysto
fibres, have been published worldwide in a few hundred of
well positioned and well cited papers [17, 18, 39, 41]. Some
major families of the specialty fibres researched, manufactured
and characterized at Białystok Optical Fibre Technology Laboratory
and next used in many practical application
experiments included:
of Technology, established and run for many years by
Jan Dorosz, has a long tradition, now of over 35 years, of
intensive and very creative work [1–73]. The Laboratory specialization
were (and are) soft, multicompone
fibres made by modified multi-crucible (MMT) and rod-intube
(RiT) technologies [24, 28]. Now, the Laboratory enters
also the advanced modified CVD technologies. During
this long period, the laboratory provided countless samples
of spec
and photonic laboratories - university and industry
based. Out of these finely designed fibres, numerable and
useful functional components, devices, sensors, and optical
sources have been made. Some of the designed
like multicore constructions, were really if not the first, then
very close to the first ones worldwide [5]. Some pilot applications
were striking at that time [7, 16]. The results from this
Laboratory, and a few tens of other ones which used Białysto
fibres, have been published worldwide in a few hundred of
well positioned and well cited papers [17, 18, 39, 41]. Some
major families of the specialty fibres researched, manufactured
and characterized at Białystok Optical Fibre Technology Laboratory
and next used in many practical application
experiments included:
of Technology, established and run for many years by
Jan Dorosz, has a long tradition, now of over 35 years, of
intensive and very creative work [1–73]. The Laboratory specialization
were (and are) soft, multicompone
fibres made by modified multi-crucible (MMT) and rod-intube
(RiT) technologies [24, 28]. Now, the Laboratory enters
also the advanced modified CVD technologies. During
this long period, the laboratory provided countless samples
of spec
and photonic laboratories - university and industry
based. Out of these finely designed fibres, numerable and
useful functional components, devices, sensors, and optical
sources have been made. Some of the designed
like multicore constructions, were really if not the first, then
very close to the first ones worldwide [5]. Some pilot applications
were striking at that time [7, 16]. The results from this
Laboratory, and a few tens of other ones which used Białysto
fibres, have been published worldwide in a few hundred of
well positioned and well cited papers [17, 18, 39, 41]. Some
major families of the specialty fibres researched, manufactured
and characterized at Białystok Optical Fibre Technology Laboratory
and next used in many practical application
experiments included:
of Technology, established and run for many years by
Jan Dorosz, has a long tradition, now of over 35 years, of
intensive and very creative work [1–73]. The Laboratory specialization
were (and are) soft, multicompone
fibres made by modified multi-crucible (MMT) and rod-intube
(RiT) technologies [24, 28]. Now, the Laboratory enters
also the advanced modified CVD technologies. During
this long period, the laboratory provided countless samples
of spec
and photonic laboratories - university and industry
based. Out of these finely designed fibres, numerable and
useful functional components, devices, sensors, and optical
sources have been made. Some of the designed
like multicore constructions, were really if not the first, then
very close to the first ones worldwide [5]. Some pilot applications
were striking at that time [7, 16]. The results from this
Laboratory, and a few tens of other ones which used Białysto
fibres, have been published worldwide in a few hundred of
well positioned and well cited papers [17, 18, 39, 41]. Some
major families of the specialty fibres researched, manufactured
and characterized at Białystok Optical Fibre Technology Laboratory
and next used in many practical application
experiments included:
of Technology, established and run for many years by
Jan Dorosz, has a long tradition, now of over 35 years, of
intensive and very creative work [1–73]. The Laboratory specialization
were (and are) soft, multicompone
fibres made by modified multi-crucible (MMT) and rod-intube
(RiT) technologies [24, 28]. Now, the Laboratory enters
also the advanced modified CVD technologies. During
this long period, the laboratory provided countless samples
of spec
and photonic laboratories - university and industry
based. Out of these finely designed fibres, numerable and
useful functional components, devices, sensors, and optical
sources have been made. Some of the designed
like multicore constructions, were really if not the first, then
very close to the first ones worldwide [5]. Some pilot applications
were striking at that time [7, 16]. The results from this
Laboratory, and a few tens of other ones which used Białysto
fibres, have been published worldwide in a few hundred of
well positioned and well cited papers [17, 18, 39, 41]. Some
major families of the specialty fibres researched, manufactured
and characterized at Białystok Optical Fibre Technology Laboratory
and next used in many practical application
experiments included:
of Technology, established and run for many years by
Jan Dorosz, has a long tradition, now of over 35 years, of
intensive and very creative work [1–73]. The Laboratory specialization
were (and are) soft, multicompone
fibres made by modified multi-crucible (MMT) and rod-intube
(RiT) technologies [24, 28]. Now, the Laboratory enters
also the advanced modified CVD technologies. During
this long period, the laboratory provided countless samples
of spec
and photonic laboratories - university and industry
based. Out of these finely designed fibres, numerable and
useful functional components, devices, sensors, and optical
sources have been made. Some of the designed
like multicore constructions, were really if not the first, then
very close to the first ones worldwide [5]. Some pilot applications
were striking at that time [7, 16]. The results from this
Laboratory, and a few tens of other ones which used Białysto
fibres, have been published worldwide in a few hundred of
well positioned and well cited papers [17, 18, 39, 41]. Some
major families of the specialty fibres researched, manufactured
and characterized at Białystok Optical Fibre Technology Laboratory
and next used in many practical application
experiments included: