RNDr. Dalibor Ciprian, Ph.D.

  • Papers in journals with impact factor
  • Articles in domestic reviewed journals
  • Contributions in proceedings of international conferences


    • Papers in journals with impact factor:

    2020

    GRYGA, Michal, CIPRIAN, Dalibor a Hlubina, Petr. Guided-mode resonance based humidity sensing using a multilayer dielectric structure, OPTICS EXPRESS, Optical Society of America, 2020, vol. 28(20), s. 28954-28960, ISSN 1094-4087, DOI: 10.1364/OE.399816

    GRYGA, Michal, Dalibor CIPRIAN a Petr HLUBINA. Bloch Surface Wave Resonance Based Sensors as an Alternative to Surface Plasmon Resonance Sensors, SENSORS, MDPI Open Access Publishing, 2020, vol. 20(18), art. 5119, s.5119(1)-5119(17), eISSN 1424-8220, DOI: 10.3390/s20185119

    KAŇOK, Roman, Dalibor CIPRIAN a Petr HLUBINA. Surface plasmon resonance-based sensing utilizing spatial phase modulation in an imaging interferometer. Sensors. MDPI Open Access Publishing, 2020, vol. 20(6), art. 1616, s. 1616(1)-1616(11). ISSN 1424-3210, DOI: 10.3390/s20061616.

    GRYGA, Michal, Dalibor CIPRIAN a Petr HLUBINA. Sensing concept based on Bloch surface waves and wavelength interrogation. Optics Letters. Optical Society of America, 2020, vol. 45(5), s. 1096-1099. ISSN 0146-9592, DOI: 10.1364/OL.387593

    2019

    HLUBINA, Petr, Petra URBANCOVÁ, Dušan PUDIŠ, Matej GORAUS, Daniel JANDURA a Dalibor CIPRIAN. Ultrahigh-sensitive plasmonic sensing of gas using a two-dimensional dielectric grating. Optics Letters. Optical Society of America, 2019, vol. 44(22), s. 5602-5605. ISSN 0146-9592, DOI: 10.1364/OL.44.005602.

    GRYGA, Michal, Daniel VALA, Pierre KOLEJÁK, Lucie GEMBALOVÁ, Dalibor CIPRIAN a Petr HLUBINA. One-dimensional photonic crystal for Bloch surface waves and radiation modes-based sensing. Optical Materials Express. The Optical Society, 2019, vol. 9(10), s. 4009-4022. ISSN 2159-3930, DOI: 10.1364/OME.9.004009.

    HLUBINA, Petr, Milena LUŇÁČKOVÁ a Dalibor CIPRIAN. Phase sensitive measurement of the wavelength dependence of the complex permittivity of a thin gold film using surface plasmon resonance. Optical Materials Express. The Optical Society, 2019, vol. 9(3), s. 992-1001. ISSN 2159-3930, DOI: 10.1364/OME.9.000992.

    2018

    CHLEBUS, Radek, CHYLEK Jakub, Dalibor CIPRIAN a Petr HLUBINA. Surface Plasmon Resonance Based Measurement of the Dielectric Function of a Thin Metal Film. Sensors. MDPI Open Access Publishing, 2018, vol. 18(11), art. 3693, s. 3693(1)-3693(12). ISSN 1424-3210, DOI: 10.3390/s18113693.

    2017

    HLUBINA, Petr a Dalibor CIPRIAN. Spectral Phase Shift of Surface Plasmon Resonance in the Kretschmann Configuration: Theory and Experiment. Plasmonics. Springer, 2017, vol. 12(4), s. 1071-1078. ISSN 1557-1955, DOI: 10.1007/s11468-016-0360-9.

    MILITKÝ, Jan, Miroslava KADULOVÁ, Dalibor CIPRIAN a Petr HLUBINA. Fiber optic temperature sensing with enhanced sensitivity based on spectral interferometry. Optical Fiber Technology. Academic Press, 2017, vol. 33(January), s. 45-50. ISSN 1068-5200, DOI: 10.1016/j.yofte.2016.11.011.

    GRYGA, Michal, Dalibor CIPRIAN a Petr HLUBINA. Surface electromagnetic wave sensor utilizing a one-dimensional photonic crystal, Proceedings of SPIE, 2019, vol. 11028, art. 110281P, eISSN 1996-756X, DOI: 10.1117/12.2520724.

    KAŇOK, Roman, CHLEBUS, Radek, CIPRIAN, Dalibor a Hlubina, Petr. Golden layer characterization using a phase shift induced by surface plasmon resonance, Proceedings of SPIE, 2019, vol. 11028, art. 110281L, eISSN 1996-756X, DOI: 10.1117/12.2520592

    BEZDĚKOVÁ, Iva, CHLEBUS, Radek, CIPRIAN, Dalibor a Hlubina, Petr. On correction of the resonant condition in the effect of surface plasmon resonance, Proceedings of SPIE, 2018, vol. 10976, art. UNSP 1097613, eISSN 1996-756X, DOI: 10.1117/12.2518426.

    CHYLEK Jakub, HLUBINA, Petr a Dalibor CIPRIAN. Surface plasmon resonance for air used for characterization of a metallic layer, Proceedings of SPIE, 2018, vol. 10976, art. UNSP 1097606, eISSN 1996-756X, DOI: 10.1117/12.2518113.

    KAŇOK, Roman, CHLEBUS, Radek, CIPRIAN, Dalibor a Hlubina, Petr. Sensing of liquid analytes using surface plasmon resonance at different angles of incidence, Proceedings of SPIE, 2018, vol. 10976, art. UNSP 109760P, eISSN 1996-756X, DOI: 10.1117/12.2517924.

    CHYLEK Jakub, BEZDĚKOVÁ, Iva, CIPRIAN, Dalibor a Hlubina, Petr. Measurement of the dispersion of a liquid analyte using surface plasmon resonance: a theoretical approach, Proceedings of SPIE, 2018, vol. 10680, art. UNSP 106801R, eISSN 1996-756X, DOI: 10.1117/12.2305916.

    KAŇOK, Roman, CIPRIAN, Dalibor a Hlubina, Petr. Sensing of liquid analytes via the phase shift induced by surface plasmon resonance, Proceedings of SPIE, 2018, vol. 10680, art. UNSP 106801Q, eISSN 1996-756X, DOI: 10.1117/12.2305718.

    DULIAKOVÁ, Michaela, HLUBINA, Petr a Dalibor CIPRIAN. Spectral phase-shift detection of surface plasmon resonance, Proceedings of SPIE, 2016, vol. 10142, art. UNSP 1014212, ISSN 0277-786X, DOI: 10.1117/12.2262060

    2016

    Lunácek, J., Hlubina, P., Ciprian, D., Duliaková, M., and Lunácková, M., “Surface plasmon resonance based sensing of aqueous solutions using spectral interferometry,” Acta Phys. Pol. A 129, 23–27 (2016);

    2015

    Hlubina, P., Duliaková, M., Kadulová, M., and Ciprian, D., “Spectral interferometry-based surface plasmon resonance sensor,” Opt. Commun. 354, 240–245 (2015);

    Hlubina, P., Kadulová, M., Ciprian, D., and Mergo, P., “Temperature sensing using the spectral interference of polarization modes in a highly birefringent fiber,” Opt. Las. Eng. 70, 51–56 (2015);

    2014

    Repková, J., Mahuliaková, M., Ciprian, D., Lesnák, M., and Lunácek, J., “The effect of magnet magnetization vector orientation in halbach arrays on the effectiveness of separation,” Acta Phys. Pol. A 126, 158–159 (2014);

    Hlubina, P., Kadulová, M., Ciprian, D., and Sobota, J., “Reflection-based fibre-optic refractive index sensor using surface plasmon resonance,” J. Eur. Opt. Soc. Rap. Public. 9, art. no. 14033 (2014);

    2013

    Žežulka, V., Pištora, J., Lesnák, M., Straka, P., Ciprian, D., and Foukal, J., “Intensity distribution of strong magnetic fields created by opposing linear halbach assemblies of permanent magnets,” J. Mag. Magn. Mater. 345, 7–12 (2013);

    Ciprian, D. and Hlubina, P., “Theoretical model of the influence of oxide overlayer thickness on the performance of a surface plasmon fibre-optic sensor,” Meas. Sci. Technol. 24, art.no. 25105 (2013);

    2012

    Hlubina, P., Kadulová, M., and Ciprian, D., “Spectral interferometry-based chromatic dispersion measurement of fibre including the zero-dispersion wavelength,” J. Eur. Opt. Soc. Rap. Public. 7, art. no. 12017 (2012);

    2011

    Hlubina, P. and Ciprian, D., “Birefringence dispersion in a quartz crystal retrieved from a channeled spectrum resolved by a fiber-optic spectrometer,” Opt. Commun. 284, 2683–2686 (2011);

    2010

    Hlubina, P., Lunácek, J., and Ciprian, D., “White-light spectral interferometric technique to measure a nonlinear phase function of a thin-film structure,” Opt. Commun. 283, 4877–4881 (2010);

    Hlubina, P., Ciprian, D., and Lunácek, J., “Spectral interferometric technique to measure the relative phase change on reflection from a thin-film structure,” Appl. Phys. B 101, 869–873 (2010);

    Hlubina, P., Lunácek, J., and Ciprian, D., “Maxima of the spectral reflectance ratio of polarized waves used to measure the thickness of a nonabsorbing thin film,” Opt. Las. Eng. 48, 786–791 (2010);

    Hlubina, P. and Ciprian, D., “Absolute phase birefringence dispersion in polarization-maintaining fiber of birefringent crystal retrieved from a channeled spectrum,” Opt. Lett. 35, 1566–1568 (2010);

    Hlubina, P., Ciprian, D., and Kadulová, M., “Measurement of chromatic dispersion of polarization modes in optical fibres using white-light spectral interferometry,” Meas. Sci. Technol. 21, art. no. 45302 (2010);

    Hlubina, P., Martynkien, T., Ciprian, D., Wojcik, J., and Urbanczyk, W., “Broad spectral range measurements and modelling of birefringence dispersion in two-mode elliptical-core fibres,” J. Opt. A - Pure App. Opt. 12, art. no. 35405 (2010);

    2009

    Hlubina, P., Ciprian, D., and Lunácek, J., “Spectral interferometric technique to measure the ellipsometric phase of a thin-film structure,” Opt. Lett. 34, 2661–2663 (2009);

    Hlubina, P., Lunácek, J., and Ciprian, D., “The effect of silicon substrate on thickness of SiO2 thin film analysed by spectral reflectometry and interferometry,” Appl. Phys. B 95, 795–799 (2009);

    Hlubina, P., Lunácek, J., and Ciprian, D., “Spectral interferometry and reflectometry used for characterization of a multilayer mirror,” Opt. Lett. 34, 1564–1566 (2009);

    Hlubina, P., Ciprian, D., and Kadulová, M., “Wide spectral range measurement of modal birefringence in polarization-maintaining fibres,” Meas. Sci. Technol. 20, art. no. 25301 (2009);

    Chlebus, R., Hlubina, P., and Ciprian, D., “Spectral-domain tandem interferometry to measure the group dispersion of optical samples,” Opt. Las. Eng. 47, 173–179 (2009);

    2008

    Hlubina, P., Lunácek, J., Ciprian, D., and Chlebus, R., “Dispersion error of a beam splitter cube in white-light spectral interferometry,” Opto-electron. Rev. 16, 439–443 (2008);

    Hlubina, P., Lunácek, J., Ciprian, D., and Chlebus, R., “Spectral interferometry and reflectometry used to measure thin films,” Appl. Phys. B 92, 203–207 (2008);

    Hlubina, P., Ciprian, D., and Chlebus, R., “Group index dispersion of holey fibres measured by a white-light spectral interferometric technique,” Opt. Commun. 281, 4008–4013 (2008);

    Hlubina, P., Lunácek, J., Ciprian, D., and Chlebus, R., “Windowed Fourier transform applied in the wavelength domain to process the spectral interference signals,” Opt. Commun. 281, 2349– 2354 (2008);

    2007

    Hlubina, P. and Ciprian, D., “Spectral-domain measurement of phase modal birefringence in polarization-maintaining fiber,” Opt. Express 15, 17019–17024 (2007);

    Hlubina, P., Szpulak, M., Ciprian, D., Martynkien, T., and Urbancyzk, W., “Measurement of the group dispersion of the fundamental mode of holey fiber by white-light spectral interferometry,” Opt. Express 15, 11073–11081 (2007);

    Hlubina, P., Ciprian, D., Lunácek, J., and Chlebus, R., “Phase retrieval from the spectral interference signal used to measure thickness of SiO2 thin film on silicon wafer,” Appl. Phys. B 88, 397–403 (2007);

    Foldyna, M., Postava, K., Ciprian, D., and Pištora, J., “Modeling of magneto-optical properties of lamellar nanogratings,” J. Alloy. Compd. 434, 581–583 (2007);

    Hlubina, P., Chlebus, R., and Ciprian, D., “Differential group refractive index dispersion of glasses of optical fibres measured by a white-light spectral interferometric technique,” Meas. Sci. Technol. 18, 1547–1552 (2007);

    Hlubina, P., Ciprian, D., and Knýblová, L., “Direct measurement of dispersion of the group refractive indices of quartz crystal by white-light spectral interferometry,” Opt. Commun. 269, 8–13 (2007);

    Hlubina, P., Ciprian, D., and Lunácek, J., “Dispersive white-light spectral interferometry including the effect of thin-film for distance measurement,” Optik 118, 319–324 (2007);

    Chlebus, R., Hlubina, P., and Ciprian, D., “Direct measurement of group dispersion of optical components using white-light spectral interferometry,” Opto-electron. Rev. 15, 144–148 (2007);

    2006

    Hlubina, P., Ciprian, D., Lunácek, J., and Lesnák, M., “Thickness of Si02 thin film on silicon wafer measured by dispersive white-light spectral interferometry,” Appl. Phys. B 84, 511–516 (2006);

    Hlubina, P., Ciprian, D., Lunácek, J., and Lesnák, M., “Dispersive white-light spectral interferometry with absolute phase retrieval to measure thin film,” Opt. Express 14, 7678–7685 (2006);

    Foldyna, M., Ossikovski, R., Martino, A. D., Drevillon, B., Postava, K., Ciprian, D., Pištora, J., and Watanabe, K., “Effective medium approximation of anisotropic lamellar nanogratings based on Fourier factorization,” Opt. Express 14, 3114–3128 (2006);

    Hlubina, P., Ciprian, D., and Knýblová, L., “Interference of white light in tandem configuration of birefringent crystal and sensing birefringent fiber,” Opt. Commun. 260, 535–541 (2006);

    Hlubina, P., Szpulak, M., Knýblová, L., Statkiewicz, G., Martynkien, T., Ciprian, D., and Urbanczyk, W., “Measurement and modelling of dispersion characteristics of a two-mode birefringent holey fibre,” Meas. Sci. Technol. 17, 626–630 (2006);

    2005

    Foldyna, M., Postava, K., Ciprian, D., and Pištora, J., “Modeling of magneto-optical properties of periodic nanostructures,” J. Mag. Magn. Mater. 290, 120–123 (2005);

    Životský, O., Postava, K., Kraus, L., Malátek, M., Janickovic, D., Ciprian, D., Lunacek, J., and Pištora, J., “Surface crystallized Co66Fe4B15Si15 amorphous ribbons studied using magnetooptical magnetometry,” J. Mag. Magn. Mater. 290, 625–628 (2005);

    2004

    Postava, K., Višnovský, Š., Veis, M., Kolínský, V., Pištora, J., Ciprian, D., Gogol, P., and Beauvillain, P., “Optimization of a magneto-optical integrated isolator,” J. Mag. Magn. Mater. 272, 2319–2320 (2004);

    2003

    Vlcek, J., Pištora, J., Ciprian, D., Yamaguchi, T., and Vávra, I., “Magnetooptical gratings with circular dots,” Opt. Appl. 33, 263–271 (2003);

    2001

    Ciprian, D. and Pištora, J., “Magneto-optic periodic strip structures,” Acta Phys. Pol. A 99, 33–46 (2001);

    Pištora, J., Domanski, A., Bárta, O., Stanek, F., Postava, K., Ciprian, D., and Kopriva, I., “Waveguiding in thin films with quadratic magneto-optical medium,” Acta Phys. Pol. A 99, 17– 23 (2001);

    1996

    Pištora, J., Ciprian, D., Kantor, R., Postava, K., and Sobota, J., “Dark mode spectroscopy of magnetic thin films,” J. Mag. Magn. Mater. 157, 283–284 (1996);

    Articles in domestic reviewed journals

    Ciprian, D., Hlubina, P., Kadulová, M.,: “Merení koeficientu chromatické disperze metodou spektrální interferometrie,” Jemná mechanika a optika 54, 168–172 (2009); ISSN 0447-6441

    Kadulová, M., Hlubina, P., Ciprian, D., Statkiewicz-Barabach, G., Urbanczyk, W., : “Merení disperze dvojlomu ve dvouvidovém mikrostrukturním optickém vlákne pomocí spektrální interferometrie v bílem svetle,” Jemná mechanika a optika 54, 176–178 (2009); ISSN 0447-6441

    Lunácek, J., Lunácková, M., Hlubina, P., Ciprian, D.,: “Využití okenní Fourierovy transformace a waveletové transformace k rekonstrukci fáze spektrálního interferencního signálu,” Jemná mechanika a optika 53, 111–114 (2008); ISSN 0447-6441

    Contributions in proceedings of international conferences

    J. Militký, M. Kadulová, D. Ciprian, and P. Hlubina, “Highly sensitive displacement measurement utilizing the wavelength interrogation,” Proceedings of SPIE 9628, art. no. 96281W, 2015;

    J. Militký, M. Kadulová, D. Ciprian, and P. Hlubina, “Highly birefringent fiber-based temperature sensor utilizing the wavelength interrogation,” Proceedings of SPIE 9506, 95061I, 2015;

    D. Ciprian, M. Kadulová, P. Hlubina, and P. Mergo, “Temperature sensing using the spectral interference of polarization modes of a highly birefringent fiber,” Proceedings of SPIE 9450, art. no. 94500E, 2015;

    P. Hlubina, D. Ciprian, and M. Kadulová, “Fiber-optic refractive index sensor based on surface plasmon resonance,” Proceedings of SPIE 9450, art. no. 94500A, 2015;

    D. Ciprian and P. Hlubina, “Analysis of nanoparticle-based surface plasmon resonance fiber optic sensor,” Key Engineering Materials 605, 131–134, 2014;

    D. Ciprian and P. Hlubina, “Model of a double-sided surface plasmon resonance fiber-optic sensor,” Proceedings of SPIE 9441, doi: 10.1117/12.2176037, 2014;

    P. Hlubina, M. Kadulová, and D. Ciprian, “Surface plasmon resonance based fiber optic refractive index sensors,” Proceedings of SPIE 9441, doi:10.1117/12.2085463, 2014;

    D. Ciprian, P. Hlubina, and J. Lunácek, “Spectral interferometry-based surface plasmon resonance sensing of liquid analyte refractive index change,” Proceedings of SPIE 8774, art. no. UNSP 87741D, 2013;

    D. Ciprian and P. Hlubina, “Metal oxide layer influence on the sensitivity of SPR fiber optic sensor,” Proceedings of SPIE 8697, art. no. UNSP 86971N, 2012;

    M. Kadulová, P. Hlubina, and D. Ciprian, “Zero-dispersion wavelength measurement of fiber polarization modes using a supercontinuum source,” Proceedings of SPIE 8697, art. no. UNSP 86971E, 2012;

    D. Ciprian and P. Hlubina, “Simulation of surface plasmon fiber-optic sensor including the effect of oxide overlayer thickness change,” Proceedings of SPIE 8439, art. no. 843927 , 2012;

    P. Hlubina, D. Ciprian, M. Kadulová, T. Martynkien, P. Mergo, and W. Urbanczyk, “Spectral interferometry-based dispersion characterization of microstructured and specialty optical fibers using a supercontinuum source,” Proceedings of SPIE 8426, art. no. 84260N , 2012;

    D. Ciprian and P. Hlubina, “Modeling of a fiber-optic sensor based on surface plasmon resonance including the dispersion of the analyte,” Proceedings of SPIE 8306, art. no. 830612, 2011;

    M. Kadulová, P. Hlubina, D. Ciprian, T. Martynkien, P. Mergo, and W. Urbanczyk, “Measurement of chromatic dispersion of polarization modes in holey fibers by white-light spectral interferometric techniques,” Proceedings of SPIE 8073, art. no. 80732L, 2011;

    P. Hlubina, J. Lunácek, and D. Ciprian, “Spectral polarimetry-based measurement of the thickness of a thin film,” Proceedings of SPIE 8082, art. no. 80822T, 2011;

    P. Hlubina, D. Ciprian, T. Martynkien, P. Mergo, and W. Urbanczyk, “Broad spectral range measurement of chromatic dispersion of polarization modes in holey fibers using spectral interferometry,” Proceedings of SPIE 8082, art. no. 80820T, 2011;

    P. Hlubina, D. Ciprian, M. Kadulová, T. Martynkien, and W. Urbanczyk, “Measurement of dispersion characteristics of two-mode birefringent optical fibers by spectral interferometric techniques,” Proceedings of SPIE 7746, art. no. 77460D, 2010;

    P. Hlubina, D. Ciprian, and J. Lunácek, “Spectral ellipsometry based on a channeled spectrum detection to measure the thickness of a thin film,” Proceedings of SPIE 7746, art. no. 77461H, 2010;

    P. Hlubina, D. Ciprian, M. Kadulová, T. Martynkien, and W. Urbanczyk, “Broad spectral range measurement of chromatic dispersion of polarization modes in holey fibers by interferometric techniques,” Proceedings of SPIE 7714, art. no. 77140Z, 2010;

    M. Kadulová, P. Hlubina, and D. Ciprian, “Dispersion of birefringence in an elliptical-core fiber measured by spectral interferometric techniques,” Proceedings of 6th Conference on Mathematics and Physics at Technical Universities, PTS 1 and 2, 361–370, 2009;

    P. Hlubina, J. Lunácek, D. Ciprian, and M. Lunácková, “Measuring small thickness changes of a thin film by white-light spectral interferometry,” Proceedings of SPIE 7356, art. no. 735618, 2009;

    P. Hlubina, D. Ciprian, M. Kadulová, G. Statkiewicz-Barabach, and W. Urbanczyk, “Broadband measurement of dispersion in a two-mode birefringent holey fiber by spectral interferometric techniques,” Proceedings of SPIE 7357, art. no. 73570A, 2009;

    M. Kadulová, P. Hlubina, D. Ciprian, G. Statkiewicz-Barabach, W. Urbanczyk, and J. Wojcik, “Birefringence dispersion in elliptical-core fibers measured over a broad wavelength range by interferometric techniques,” Proceedings of SPIE 7357, art. no. 73570C, 2009;

    R. Chlebus, P. Hlubina, and D. Ciprian, “Tandem interferometry used to measure the group dispersion of optical components,” Proceedings of SPIE 7141, art. no. 71410V, 2008;

    P. Hlubina, D. Ciprian, and M. Kadulová, “Measurement of birefringence dispersion in polarizationmaintaining fibers by white-light spectral interferometric techniques,” Proceedings of SPIE 7141, art. no. 71411L, 2008;

    P. Hlubina, J. Lunácek, D. Ciprian, and R. Chlebus, “Variable effective thickness of beamsplitter cube and dispersion error in white-light spectral interferometry,” Proceedings of SPIE 7141, art. no. 71410X, 2008;

    P. Hlubina, J. Lunácek, D. Ciprian, R. Chlebus, and M. Lunácková, “Phase retrieval from the spectral interferograms by windowed fourier transform,” Proceedings of SPIE 6995, art. no. 69950Z, 2008;

    P. Hlubina, D. Ciprian, and R. Chlebus, “Group dispersion measurement of a holey fiber by white-light spectral interferometry,” Proceedings of SPIE 6990, art. no. 69900J, 2008;

    P. Hlubina, D. Ciprian, and J. Trojková, “Spectral-domain measurement of phase modal birefringence in highly birefringent fibers,” Proceedings of SPIE 6990, art. no. 69900U, 2008;

    P. Hlubina, D. Ciprian, and R. Chlebus, “Spectral-domain interferometric technique used to measure group index dispersion of holey fibers,” Proceedings of SPIE 7138, art. no. 713815, 2008;

    R. Chlebus, P. Hlubina, and D. Ciprian, “Dispersion measurements of anisotropic materials and a new fiber-optic sensor configuration,” Proceedings of SPIE 6609, art. no. 66090H, 2007;

    D. Ciprian, P. Hlubina, and J. Trojková, “Dispersion measurements of a birefringent holey fiber using white-light spectral interferometry,” Proceedings of SPIE 6609, art. no. 66090W, 2007

    P. Hlubina, D. Ciprian, J. Lunácek, M. Lesnák, and R. Chlebus, “Dispersive white-light spectral interferometry used to measure thickness of a thin film on a substrate - ,” Proceedings of SPIE 6609, art. no. 66090X, 2007;

    P. Hlubina, D. Ciprian, and R. Chlebus, “Differential group index dispersion of a holey fiber measured by white-light spectral interferometry,” ICTON 2007: Proceedings of the 9th International Conference on Transparent Optical Networks, Vol 4, 297–300, 2007;

    R. Chlebus, P. Hlubina, D. Ciprian, and J. Lunácek, “Measurement of thin films using slightly dispersive spectral interferometry,” Proceedings of SPIE 6582, art. no. 65821D, 2007;

    P. Hlubina, D. Ciprian, R. Clebus, J. Lunácek, and M. Lesnák, “White-light spectral interferometric technique used to measure thickness of thin films,” in Proceedings of SPIE 6616(1-2), art. no. 661605, 2007;

    P. Hlubina, D. Ciprian, and R. Chlebus, “White-light spectral interferometric techniques used to measure the group dispersion of isotropic and anisotropic optical elements,” Proceedings of SPIE 6616(1-2), art. no. 66161F, 2007;

    P. Hlubina, D. Ciprian, J. Trojkova, G. Statkiewicz, T. Martynkien, and W. Urbanczyk, “Specialty optical fibers measured by interferometric techniques,” Proceedings of SPIE 6588, art. no. 658811, 2007;

    P. Hlubina, M. Szpulak, D. Ciprian, J. Trojkova, G. Statkiewicz, T. Martynkien, and W. Urbanczyk, “Theoretical and experimental analysis of waveguiding in a two-mode birefringent holey fiber,” in Proceedings of SPIE 6588, art. no. 65880K, 2007;

    P. Hlubina, D. Ciprian, and L. Knýblová, “Spectral-domain analysis of white light propagation in new sensor configuration comprising birefringent fiber,” Proceedings of SPIE 6189, art. no. 61891H, 2006;

    P. Hlubina, M. Szpulak, L. Knyblova, D. Ciprian, T. Martynkien, G. Statkiewicz, and W. Urbanczyk, “Experimental and theoretical analysis of dispersion characteristics of two-mode birefringent holey fiber,” Proceedings of SPIE 6182, art. no. 61822G, 2006;

    P. Hlubina, D. Ciprian, and L. Knýblová, “Two-mode fiber-optic sensors using a white-light spetral interferometric technique,” Proceedings of SPIE 5952, art. no. 59520Y, 2005;

    J. Vlcek, J. Pištora, D. Ciprian, T. Yamaguchi, and I. Vávra, “Magneto-optical gratings with circular dots,” Proceedings of SPIE 5259, pp. 75–81, 2003;

    D. Ciprian and J. Pištora, “Specular diffraction on nanometric grating,” Proceedings of SPIE 5445, pp. 214–217, 2003;

    M. Foldyna, D. Ciprian, J. Pištora, K. Postava, and R. Antoš, “Reconstruction of grating parameters from ellipsometric data,” Proceedings of SPIE 5445, pp. 226–229, 2003;

    J. Pištora, M. Foldyna, T. Yamaguchi, J. Vlcek, D. Ciprian, K. Postava, and F. Stanek, “Magneto-optical phenomena in systems with prism coupling,” Proceedings of SPIE 5036, pp. 299– 304, 2003;

    D. Ciprian, J. Pištora, I. Kopriva, and S. Marcet, “Magneto-optical patterned structure for magnetic field sensing,” Proceedings of SPIE 4887, pp. 89–98, 2002;

    I. Kopriva, D. Hrabovsky, K. Postava, D. Ciprian, J. Pištora, and A. Fert, “Anisotropy of the quadratic magneto-optical effects in a cubic crystal,” Proceedings of SPIE 4016, pp. 54–59, 2000;

    K. Postava, J. Pištora, D. Ciprian, D. Hrabovský, M. Lesnák, and A. Fert, “Linear and quadratic magneto-optical effects in reflection from a medium with an arbitrary direction of magnetization,” Proceedings of SPIE 3820, pp. 412–422, 1999;

    K. Postava, J. Pištora, D. Ciprian, and P. Hlubina, “Measurement of the magnetization in thin films using magneto-optical effects,” Proceedings of SPIE 3823, pp. 281–288, 1999;

    D. Ciprian, “Magneto-optic diffraction grating with transversal anisotropy,” Proceedings of SPIE 3580, pp. 123–129, 1998;

    J. Pištora, M. Lesnák, and D. Ciprian, “Magnetic defectoscopy of steel ropes,” Proccedings of International Syposium on Mine Planning and Equipment Selection 1997, pp. 477–483, 1997;

    J. Pištora, M. Lesnák, D. Ciprian, and V. Mádr, “Magnetic defectoscopy of steel ropes,” Proccedings of International Syposium on Mine Planning and Equipment Selection 1995, pp. 487–491, 1995;

    J. Pištora and D. Ciprian, “Effects of absorption and coupling strength on accuracy of dark mode refractometry,” Proceedings of SPIE 2208, pp. 119–123, 1995;

    J. Pištora and D. Ciprian, “Dark mode spectroscopy,” Proceedings of SPIE 1846, pp. 200–205, 1994;

    Up