Instrumentation optical fibres for wave transformation, signal processing, sensors, and photonic functional components, manufactured at Białystok University of Technology in Dorosz Fibre Optics Labolatory

Romaniuk, R. S.

doi:10.2478/bpasts-2014-0066

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Tytuł artykułu

Instrumentation optical fibres for wave transformation, signal processing, sensors, and photonic functional components, manufactured at Białystok University of Technology in Dorosz Fibre Optics Labolatory

Autorzy

Romaniuk R. S.

Treść / Zawartość

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DOI

10.2478/bpasts-2014-0066

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Języki publikacji

Abstrakty

Tailored, specialty optical fibres, made of complex glasses, called collectively as a non-telecommunications or instrumentation family, serve for various optical wave transformations for particular functional purposes and optical signal processing, rather than for long 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 Sciences, devoted to professor Jan Dorosz, and shows some of the developments in the area of optical fibre photonics, which were carried out at his active laboratory.

Słowa kluczowe

optical fibres specialty optical fibres soft glass optical fibres nontelecom optical fibres optical fibre photonics multicore optical fibres optical fibre microoptics optical capillaries photonic fibres structural optical fibres signal processing in optical fibres Białystok University of Technology

Wydawca

Polska Akademia Nauk, Wydział IV Nauk Technicznych

Czasopismo

Bulletin of the Polish Academy of Sciences. Technical Sciences

Rocznik

2014

Tom

Vol. 62, nr 4

Strony

607--618

Opis fizyczny

Bibliogr. 73 poz., rys., wykr.

Twórcy

autor

Romaniuk R. S.

R.Romaniuk@elka.pw.edu.pl

Warsaw University of Technology, Institute of Electronic Systems, 15/19 Nowowiejska St., 00-665 Warsaw, Poland

Bibliografia

[1] J. Dorosz and R. Romaniuk, “Technology and properties of crucible optical fibres designed for optical fibre converters for measurements of non-electrical quantities”, XV Int. Metrology Conf. MKM-81 2, 251-263 (1981), (in Polish).
[2] R. Romaniuk, P. Pańta, and J. Dorosz, “Optical fibre converters for electrical and radiation measurements - technological and constructional problems”, XV Int. Metrology Conf. MKM-81 2, 264-273 (1981), (in Polish).
[3] R. Romaniuk and J. Dorosz, “Limitations of optical fibers transmission”. II Sci. Conf., Systems and Telecom. Networks 1, 259-265 (1981), (in Polish).
[4] J. Dorosz, “Crucible optical fibres”, Electronics 23, 30-32 (1982), (in Polish).
[5] J. Dorosz and R.S. Romaniuk, “Optical fibre technology by triple and quadruple crucible methods”, Sixth Int. Fiber Optics and Communications Exposition 1, 99-102 (1982).
[6] J. Dorosz and R. Romaniuk, “Optical fibres with shaped cores and their applications”, Sixth Int. Fiber Optics and Communications, Conf. and Exposition “FOC’82” 1, 89-90 (1982).
[7] J. Dorosz and R. Romaniuk, “Optical fibre fire alarm system”, Sixth Int. Fiber Optics and Communications, Conf. and Exposition “FOC’82” 1, 176-178 (1982).
[8] J. Dorosz and R. Romaniuk, “Technology of triple and quadri crucible optical fibres”, III Nat. Symp. Optical Fibres and Their Applications 1, 29-41 (1983), (in Polish).
[9] J. Dorosz and R. Romaniuk, “Technology of shaped optical fibres”, III Nat. Symp. Optical Fibres and Their Applications 1, 42-61 (1983), (in Polish).
[10] J. Dorosz, M. Bożyk, and R. Romaniuk, “Technological shaping and measurements of the refractional profile of optical fibers obtained with the use of the triple and quadruple crucible method”, III Nat. Symp. Optical Fibres and Their Applications 1, 62-75 (1983), (in Polish).
[11] R. Romaniuk and J. Dorosz, “Review of materials for optical fibers technology in the middle infrared”, Glass and Ceramics XXXIV (2), 49-55 (1983), (in Polish).
[12] R. Romaniuk and J. Dorosz, “The multi-crucible-zone method of manufacturing glass optical fiber cables”, Glass and Ceramics XXXIV (3), 93-99 (1983), (in Polish).
[13] W. Leś, J. Dorosz, and R. Romaniuk, “Optical fibres investigation-production department”, Glass and Ceramics XXXIV (4), 145-148 (1983), (in Polish).
[14] R.S. Romaniuk and J. Dorosz, “Octopus-like-shape cored optical fibers”, Proc. SPIE 403, 249-252 (1983).
[15] R.S. Romaniuk, K. Jędrzejewski, and P. Pańta, “Properties of home-made MCVD, PCS and DC/TC optical fibres in radiation environments”, Proc. SPIE 404 (0404014), 96-101 (1983).
[16] J. Dorosz and R. Romaniuk, “Optical fibres firefighting system”, III Nat. Symp. Optical Fibres and Their Applications 2, 83-91 (1983), (in Polish).
[17] R.S. Romaniuk and J. Dorosz, “Coupled/noncoupled wave transmission in long length of multicore optical fibres”, Xth Eur. Conf. Optical Communication, ECOC’ 84, 202-203 (1984).
[18] R.S. Romaniuk and J. Dorosz, “A family of multicore optical fibre based sensors and instrumentation systems”, Int. Conf. on Optical Fiber Sensors, Stuttgart, OFS’ 84, 275-278 (1984).
[19] R. Romaniuk and J. Dorosz, “Some properties of crucible optical fibres from cerium-doped glasses”, Elektronics 25, 24-25 (1984), (in Polish).
[20] R. Romaniuk and J. Dorosz, “Theoretical assumptions of crucible technology of optical fibers with complex core shapes”, Electronics 25, 22-24 (1984), (in Polish).
[21] J. Dorosz, “Some theoretical assumptions of crucible technology of optical fibers”, Doctoral Thesis, UMCS, Lublin, 1984.
[22] R.S. Romaniuk, “Multicore optical fibres for sensors”, Proc. SPIE 566, CD-ROM (1985).
[23] R. Romaniuk and J. Dorosz, “Industrial applications of optical fibers technology”, Elektronizacja 7-8, 3-6 (1985).
[24] R.S. Romaniuk and J. Dorosz, “Multiclad monomode optical fibres by MZD technology”, Proc. SPIE 670, 12-20 (1986).
[25] R. Romaniuk, A. Domański, T. Maciak, and J. Dorosz, “Optical fibre interfaces for integrated optics”, Proc. SPIE 704, 144-151 (1986).
[26] R.S. Romaniuk and J. Dorosz, “Multicore optical fiber components”, Proc. SPIE. 722, 117-124 (1986).
[27] R.S. Romaniuk, “Fiber optic pulse sequencers/desequencers”, Proc. SPIE 722, CD-ROM (1986).
[28] R.S. Romaniuk and J. Dorosz, “Ultimate development of hybrid extrusion, multicrucible and multi-rod-in-tube technologies of tailored (special purpose) optical fibres”, Proc. SPIE 798, 316-323 (1987).
[29] R.S. Romaniuk, J. Dorosz, and P. Szczot, “Lightguide technology for adverse environments (review of selected university based work in Poland)”, Int. J. Optical Sensors. 2, 163-190 (1987).
[30] R.S. Romaniuk and J. Dorosz, “Multicore microoptics”, Proc. SPIE 1014, 120-129 (1988).
[31] R.S. Romaniuk and J. Dorosz, “Multicore micro-optics”, Int. J. Optoelectronics 4, 201-219 (1989).
[32] R.S. Romaniuk and J. Dorosz, “Exotic optical fibres”, Proc. SPIE 1085, 273-276 (1989).
[33] R.S. Romaniuk and J. Dorosz, “Multicore micro-optics”, Int. J. Optoelectronics 4, 201-219 (1989).
[34] R.S. Romaniuk, “Single-mode quadruple-core optical fibres”, Proc. SPIE 1085, 214-238 (1989).
[35] R.S. Romaniuk and J. Dorosz, “Multicore micro-optics”, Int. J. Optoelectronics 4, 201-219 (1989).
[36] J. Dorosz, “Crucible methods of manufacturing multi-core optical fibers”, Bialystok University of Technology Issues 29, CDROM (1995), (in Polish).
[37] J. Dorosz, “Aspects of multi-core optical fibers technology”, Bialystok University of Technology Issues 41, CD-ROM(1997), (in Polish).
[38] J. Dorosz and R. Romaniuk, “Fiber optic department of Biaglass Co. Twenty years of research activities”, Optica Applicata XXXVIII (4), 267-291 (1998).
[39] J. Dorosz and R. Romaniuk, “Multicrucible technology of optical fibers”, Optica Applicata 27, 293-322 (1998).
[40] J. Dorosz and R. Romaniuk, “Optical fibers and their applications”, VI Proc. SPIE 3731, CD-ROM (1998).
[41] J. Dorosz and R. Romaniuk, “Multicore single-mode optical fibers”, Optica Applicata 24, 15-49 (1999).
[42] J. Dorosz and R.S. Romaniuk, “Recent developments of optical fiber technology at the Fiber Optic Department of Biaglass Co.”, Proc. SPIE 3731, 9-31 (1998).
[43] J. Dorosz and R. Romaniuk, “Current developments of multicrucible technology of tailored optical fibers”, Proc. SPIE 3731, 32-58 (1998).
[44] J. Dorosz and R. Romaniuk, “Manufacturing and measurements of triple-core, double-core and twin-core single-mode soft-glass optical fibers”, Proc. SPIE 3731, 59-71 (1999).
[45] D.J. Dorosz, “Drawing up principles of optical fiber technology with SiO2 - multi-component glass structure”, Master Thesis, UMCS, Toruń, 1999, (in Polish).
[46] J. Dorosz and R. Romaniuk, “Shaped optical fibers”, Application Notes, Biaglass Publishing House, Białystok, 2000, (in Polish).
[47] R. Romaniuk, Introduction to Measurement Technique of Optical Fibers, KEiT PAN, Warszawa, 2000.
[48] R. Romaniuk, “Tensile strength of tailored optical fibers”, Opto Electron. Rev. 2, 103-118 (2000).
[49] R. Romaniuk, “Working out technology of optical fibers with eliptical core”, in Photonic Engineering, PW, Warsaw, 2000.
[50] R. Romaniuk, “Ring-index optical fibers”, Optica Applicata XXXI (2), 425-444 (2001).
[51] R. Romaniuk, Studies on Shaped Optical Fibers, vol. 134, PW, Warsaw, 2002.
[52] R. Romaniuk and J. Dorosz, “Temperature sensor based on double core optical fibre”, Proc. SPIE 4887, 55-66 (2002).
[53] R. Romaniuk and J. Dorosz, “Optical fibres and their applications”, VIII, Proc. SPIE 5028, CD-ROM (2003).
[54] R. Romaniuk and J. Dorosz, “Measurement techniques of tailored optical fibres”, Proc. SPIE 5064, 210-221 (2003).
[55] R.S. Romaniuk and J. Dorosz, “Transmission of coherent de- Broglie wave in capillary optical fibres”, Electronics 47, 28-31 (2006), (in Polish).
[56] R.S. Romaniuk and J. Dorosz, “Mechanical properties of capillary optical fibers”, Electronics 47, 31-34 (2006), (in Polish).
[57] R.S. Romaniuk and J. Dorosz, “Control of geometry of capillary optical fibers”, Electronics 47, 9-14 (2006), (in Polish).
[58] R.S. Romaniuk and J. Dorosz, “Manufacturing and characterization of capillary optical fibers”, PAS Electron. and Telecom Q. 52, 427-449 (2006).
[59] J. Dorosz, R. Romaniuk , and T. Woliński, “Optical fibers and their applications”, Proc. SPIE 7120, CD-ROM (2008).
[60] R. Romaniuk, “Capillary optical fibers”, PW, Warsaw, 2010, (in Polish).
[61] J. Dorosz and R. Romaniuk, “ Optical fibers and their applications”, Proc. SPIE 8010, CD-ROM (2011).
[62] J. Dorosz and R. Romaniuk, “Development of optical fibers in the country 2009-2011”, Electronics 52, 109-113 (2011), (in Polish).
[63] J. Dorosz and R.Romaniuk, “Development of optical fiber technology in Poland”, Proc. SPIE 8010, 801002 (2014), doi: 10.1117/12.895998.
[64] J. Dorosz and R.S. Romaniuk, “Optical fibers and their applications”, Proc. SPIE 9228, CD-ROM (2014).
[65] J. Dorosz and R.S. Romaniuk, “Development of optical fiber technology in Poland - 2014”, Proc. SPIE 9228, 922802 (2014), doi: 10.1117/12.2047303.
[66] R.S. Romaniuk, “Non- telecommunications optical fibers”, in Problems of Electronic and Photonic Metrology, ed. J. Mroczka, pp. 63-208, OWPWr, Wrocław, 2012.
[67] J. Zmojda, M. Kochanowicz, T. Ragin, and D. Dorosz, “Nearinfrared emission and energy transfer in tellurite glasses codoped with erbium and thullium ions”, Proc. SPIE 9228, 922806 (2014), doi: 10.1117/12.2065541.
[68] J. Pisarska, W.A. Pisarski, D. Dorosz, and J. Dorosz, “Optical properties of lead-freeoxyfluoride germinate glasses doped with Pr3+”, Proc. SPIE 9228, 922809 (2014), doi: 10.1117/12.2066990.
[69] M. Kochanowicz, J. Zmojda, D. Dorosz, P. Miluski, and J. Dorosz, “Upconversion uminescence of Yb3+/Tb3+ codoped tellurite glasses”, Proc. SPIE 9228,92280B, doi: 10.1117/12.2067038, (2014).
[70] T. Ragin, M. Kochanowicz, J. Zmojda, and D. Dorosz, “Spectroscopic properties of bismuth-germanate glasses co-doped with erbium and holmium ions”, Proc. SPIE 9228, 92280C, doi: 10.1117/12.2067063 (2014).
[71] P. Miluski, D. Dorosz, M. Kochnowicz, J. Zmojda, and J. Dorosz, “Luminescent optical fibre sensor for UV detection”, Proc. SPIE 9290, 9290-57 (2014).
[72] T. Ragin, K. Czajkowski, J. Zmojda, M. Kochnowicz, and D. Dorosz, “Investigation of thermal and spectroscopic properties of Bi2O3-GeO2-Ga2O3-Na2O glasses doped with Er3+ ions”, Proc. SPIE 9290, 9290-104 (2014).
[73] K. Bykowski, A. Bruszewski, D. Cimaszewski, J. Zmojda, M. Kochanowicz, and D. Dorosz, “Nd3+, Yb3+, and Nd3+/Yb3+ - doped borosilicate glasses for luminescent thermometry”, Proc. SPIE 92290, 9229-107 (2014).

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Bibliografia

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