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The paper presents the results of investigations concerning the measurements of the refractive index and the thickness of planar waveguide structures, obtained by photopolymerization of the polymer SU8. In the paper, the mode sensitivity has been calculated as a function of the thickness in a bimodal structure. The differential interference has been analyzed, concerning the modes of the same types TE0-TE1 and TM0-TM1. The thickness of the layer has been determined when the interferometer is most sensitive to the changes in the refractive index.
Czasopismo
Rocznik
Tom
Strony
407--416
Opis fizyczny
Bibliogr. 27 poz.
Twórcy
autor
- Department of Optoelectronics, Silesian University of Technology, Akademicka 2A, 44-100 Gliwice, Poland
Bibliografia
- [1] PUSTELNY T., Physical and Technical Aspects of Optoelectronic Sensors, SUT Publisher Technology, Gliwice, 2005, pp. 159–178.
- [2] SABAC A., GORECKI C., JOZWIK M., NIERADKO L., MEUNIER C., GUT K., Technology and performances of silicon oxynitride waveguides for optomechanical sensors fabricated by plasma-enhanced chemical vapour deposition, Journal of the European Optical Society – Rapid Publications 2, 2007,
- [3] GUT K., The influence of a nanometric layer with a high refracting index on the sensitivity of the difference interferometer, Acta Physica Polonica A 114(6A), 2008, pp. A-121–A-126.
- [4] OPILSKI A., ROGOZIŃSKI R., GUT K., BŁAHUT M., OPILSKI Z., Present state and perspectives involving application of ion exchange in glass, Opto-Electronics Review 8(2), 2000, pp. 117–127.
- [5] GUT K., ZAKRZEWSKI A., PUSTELNY T., Sensitivity of polarimetric waveguide interferometer for different wavelengths, Acta Physica Polonica A 118(6), 2010, pp. 1140–1142.
- [6] GUT K., DREWNIAK S., Comparison of the sensitivity of a polymer waveguide in the classical and reverse symmetry system, Acta Physica Polonica A 118(6), 2010, pp. 1133–1135.
- [7] GUT K., DREWNIAK S., The waveguide structure based on the polymer SU8 on a SiO2/Si substrate, Acta Physica Polonica A 120(4), 2011, pp. 630–634.
- [8] STRUK P., PUSTELNY T., Design and numerical analyses of the planar grating coupler, Bulletin of the Polish Academy of Sciences: Technical Sciences 58(4), 2010, pp. 509–512.
- [9] STRUK P., PUSTELNY T., OPILSKI Z., Researches on the spectral transmittance of zinc oxide ZnO semiconductor layers, Acta Physica Polonica A 118(6), 2010, pp. 1239–1241.
- [10] STRUK P., PUSTELNY T., GUT K., GOŁASZEWSKA K., KAMINSKA E., EKIELSKI M., PASTERNAK I.,ŁUSAKOWSKA E., PIOTROWSKA A., Planar optical waveguides based on thin ZnO layers, Acta Physica Polonica A 116(3), 2009, pp. 414–418.
- [11] AKESSO L., SU8 Technical Datasheet, Gersteltec Sarl, 2005.
- [12] GUT K., PUSTELNY T., NABAGŁO D., The influence of the rotational speed of the polymer SU8 on the thickness of the waveguide layer, Acta Physica Polonica A 118(6), 2010, pp. 1136–1138.
- [13] GUT K., NABAGLO D., Measurements of the attenuation by means of the scattered light of planar waveguide structure, basing on the polymer SU8 on a substrate of soda-calcium glass, Acta Physica Polonica A 116(3), 2009, pp. 307–311.
- [14] BECHE B., PELLETIER N., GAVIOT E., ZYSS J., Single-mode TE00–TM00 optical waveguides on SU-8 polymer, Optics Communications 230(1–3), 2004, pp. 91–94.
- [15] ULRICH R., TORGE R., Measurement of thin film parameters with a prism coupler, Applied Optics 12(12), 1973, pp. 2901–2908.
- [16] EL-AGEZ T., TAYA S., Theoretical spectroscopic scan of the sensitivity of asymmetric slab waveguide sensors, Optica Applicata 41(1), 2011, pp. 89–95.
- [17] TIEFENTHALER K., LUKOSZ W., Sensitivity of grating coupler as integrated-optical chemical sensors, Journal of the Optical Society of America B 6(2), 1989, pp. 209–220.
- [18] GUT K., KARASIŃSKI P., WÓJCIK W.T., ROGOZIŃSKI R., OPILSKI Z., OPILSKI A., Applicability of interference TE0–TM0 modes and TE0–TE1 modes to the construction of waveguide sensors, Optica Applicata 29(1), 1999, pp. 101–109.
- [19] ZINOVIEV K.E., GONZÁLEZ-GUERRERO A.B., DOMÍNGUEZ C., LECHUGA L.M., Integrated bimodal waveguide interferometric biosensor for label-free analysis, Journal of Lightwave Technology 29(13), 2011, pp. 1926–1930.
- [20] LEVY R., RUSCHIN S., Design of a single-channel modal interferometer waveguide sensor, IEEE Sensors Journal 9(2), 2009, pp. 146–153.
- [21] STRUK P., PUSTELNY T., PUSTELNY B., GOŁASZEWSKA K., KAMIŃSKA E., PIOTROWSKA A., BORYSEWICZ M., EKIELSKI M., Zinc oxide semiconductor for photonic structures applications, Acta Physica Polonica A 118(6), 2010, pp. 1242–1245.
- [22] PUSTELNY T., ZIELONKA I., TYSZKIEWICZ C., KARASINSKI P., PUSTELNY B., Impressing technology of optical Bragg’s gratings on planar optical sol–gel waveguides, Opto-Electronics Review 14(2), 2006, pp. 161–166.
- [23] TYSZKIEWICZ C., PUSTELNY T., Differential interferometry in planar waveguide structures with ferronematic layer, Optica Applicata 34(4), 2004, pp. 507–514.
- [24] PUSTELNY T., GRABKA M., Numerical investigation of the photonic-crystal fibres with suspended core, Acta Physica Polonica A 116(3), 2009, pp. 385–388.
- [25] PUSTELNY T., MACIAK E., OPILSKI Z., PIOTROWSKA A., PAPIS E., GOŁASZEWSKA K., Investigation of the ZnO sensing structure on NH3 action by means of the surface plasmon resonance method, European Physical Journal – Special Topics 154, 2008, pp. 165–170.
- [26] PUSTELNY T., BARCZAK K., GUT K., WOJCIK J., Special optical fiber type D applied in optical sensor of electric carrents, Optica Applicata 34(4), 2004, pp. 531–539.
- [27] GUT K., Polarimetric difference interferometer made by ion exchange method, Journal de Physique IV (Proceedings) 129, 2005, pp. 109–112.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPW7-0023-0026