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Światłowód mikrostrukturalny kodomieszkowany jonami Yb3+/Tm3+ do badania właściwości cieczy

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EN
Microstructural fiber optics doped with Yb3+/Tm3+ to measure properties of liquids
Języki publikacji
PL
Abstrakty
PL
W artykule przedstawiono światłowód mikrostrukturalny do pomiaru stężenia roztworów. Zaprojektowane włókno posiadające otwory powietrzne i rdzeń ko-domieszkowany jonami Yb3+/Tm3+ wykorzystano jako element do budowy czujnika stężenia chlorofilu i fluoresceiny. Zaprezentowano pomiary stężeń tych związków w zakresach: 2,75 - 13,66 [mg/dm3] (chlorofil) i 0,25 - 5,42·10-4 [%mol] (fluoresceina). Osiągnięto czułości pomiarowe, które wynoszą 0,005 [1/(mg/dm3)] (chlorofil) i 1,61·10-4 [1/mol%] (fluoresceina).
EN
This paper presents microstructural optical fiber for measuring the concentration of solutions. Designed fiber having air holes and the core co-doped with Yb3+/Tm3+ ions is used as a part of the construction of the sensor measuring the concentration of chrorophyll and fluorescein. Measurements of the concentration of these compounds are presented in the range of: 2,75 - 13,66 [mg/dm3] (chlorophyll) and 0,25 - 5,42·104 [%mol] (fluorescein).Measurement sensitivity is 0,005 [1/(mg/dm3)] (chlorophyll a) and 1,61·10-4 [1/mol%] (fluorescein).
Rocznik
Strony
254--257
Opis fizyczny
Bibliogr. 22 poz., rys., wykr.
Twórcy
  • Politechnika Białostocka, Wydział Elektryczny, ul. Wiejska 45D, 15-351 Białystok
Bibliografia
  • [1] Ghosh, S., Bhagwat, A., Kyle Renshaw, C., Goh, S., Gaeta, A., Low-light-level optical interactions with rubidium vapor in a photonic band-gap fiber, Phys. Rev. Lett., 97, (2006), 023603
  • [2] Nguyen, L., Warren-Smith, S., Cooper, A., Monro, T., Molecular beacons immobilized within suspended core optical fiber for specific DNA detection, Opt. Express, 20, (2012), 29378
  • [3] Zolla, F., Renversez, G., Nicolet, A., Kuhlmey, B., Guenneau, S., Felbacq, D., Argyros, A., Leon-Saval, S., Foundations of photonic crystal fibres(2nd Edition), Imperial College Press, 2012
  • [4] Russell, P., St, J., Photonic crystal fibers, Science 299 (2003), 358–362
  • [5] Monro, T., M., Belardi, W., Furusawa, K., Baggett, J., C., Broderick, N., G., R., Richardson, D., J., Sensing with microstructured optical fibres, Measurement Science and Technology, 12 (2001), 854–858
  • [6] Yu, X., Sun, Y., Ren, G., B., Shum, P., Ngo, N., Q., Kwok, Y., C., Evanescent field absorption sensor using a pure-silica defected-core photonic crystal fiber, IEEE Photonics Technology Letters, 20 (2008), 336–338
  • [7] Sun, Y., Yu, X., Nguyen, N-T., Shum, P., Kwok, Y., C., Long path-length axial absorption detection in photonic crystal fiber, Journal of Analytical Chemistry, 80 (2008), 4220–4224
  • [8] Vienne, G., Yan, M., Luo, T., Liang, T., K., Ho, P., Lin C., Liquid core fibers based on hollow core microstructured fibers, Proceedings of IEE conference on lasers and electrooptics/Pacific Rim, (2005), 551–552
  • [9] Yu, X, Seng Lok, K., YienChian, K., Ying Zhang, Huifeng, W., Tong, W., Chemiluminescence detectionin liquidcoremicrostructured optical fibers, Sensors and Actuators B., 160 (2011), 800-803
  • [10] Zhanga, Z., J.,Zhaob, C., J.,Dongb, D.,Zhengb, W., G.,Jiaob, L., Z., Zhaob, X., D., Measurement of chlorophyll in water based on laser-induced fluorescence spectroscopy: Using spiral-wound unclad optical fiber system and partial least squares regression,Optik,124(2013), 3375–3378
  • [11] Kampel,M., Lorenzzetti, J., A., Bentz, C., Nunes, R., Paranhos, R., Rudorff, F., Politano, A., Simultaneous Measurements of Chlorophyll Concentration by Lidar, Fluorometry, above-Water Radiometry, and Ocean Color MODIS Images in the Southwestern Atlantic,Sensors (Basel), 9(1) (2009), 528–541
  • [12] Novoa, S., Chust, G., Sagarminaga, Y., Revilla, M., Borja, A., Franco, J., Water quality assessment using satellite-derived chlorophyll-a within the European directives, in the southeastern Bay of Biscay,Marine Pollution Bulletin,64(2012), 739–750
  • [13] Boyer, J., Kelble, C., Ortner, P., Rudnick, D., Phytoplankton bloom status: Chlorophyll a biomass as an indicator of water quality condition in the southern estuaries of Florida, USA,Ecological indicators, 9 (2009), 56–67
  • [14] Zhuowei, H., Liu, H., Zhu, L., Feina., L., Quantitative Inversion Model of Water Chlorophyll-a Based on Spectral Analysis,Procedia Environmental Sciences, 10 (2011), 523–528
  • [15] Osińska-Skotak, K., Możliwości teledetekcyjnego monitorowania zawartości chlorofilu w wodach śródlądowych, Warszawa, (2009)
  • [16] Dekker, A., G., Detection of optical water quality parameters for eutrophic waters by high resolution remote sensing.,ProeschriftVrijeUniversiteit, (1993), 1-240
  • [17] Ramíreza, D., A., Yactayoa, W., Gutiérreza, R., Maresa, V., De Mendiburua, F., Posadasa, A., Quiroza, A., Chlorophyll concentration in leaves is an indicator of potato tuber yield in water-shortage conditions,ScientiaHorticulturae, 168 (2014), 202–209
  • [18] Gottardinia, E., Cristoforia, A., Cristofolinia, F., Nalib, C., Pellegrinib, E., Bussottic, F., Ferrettid., M., Chlorophyll-related indicators are linked to visible ozone symptoms: Evidence from a field study on native Viburnum lantana L. plants in northern Italy,Ecological Indicators, 39 (2014), 65–74
  • [19] Kurendaa, A.,Zduneka, A., Schlüterb, O., HerppichVIS/NIR spectroscopy, chlorophyll fluorescence, biospeckle and backscattering to evaluate changes in apples subjected to hydrostatic pressures, Postharvest Biology and Technology, 96 (2014), 88–98
  • [20] Kunes, M., Kvetina, J., Malakova, J., Bures, J., Kopacova, M., Fluoresceine as a diagnostics for cells-confocal laser endomicroscopy: Toxicokinetic study in experimental pig, Abstracts / Toxicology Letters 180S (2008) S32–S246
  • [21] Murkowski A., Skórska E., Zastosowanie metod chemiluminescencyjnych do badania procesów utleniania olejów roślinnych, Acta Agrophysica., 93 (2003), 55-65
  • [22] Kochanowicz, M., Dorosz, D., Zmojda, J., Miluski, P., Dorosz, J., Pisarska, J., Pisarski, W.A.,Upconversion emission in antimony–germanate double-clad optical fiber co-doped with Yb3+/Tm3+ ions, Optical Materials, Volume 41 (2015), 108-111
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-56e22ebe-b1d5-4953-9989-cb2645459b49
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