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    Publicações

    Publicações por José Luís Santos

    1994

    <title>Polarization-induced noise in a fibre optic Michelson interferometer: influence of the coupler</title>

    Autores
    Ferreira, LAA; Santos, JL; Farahi, F;

    Publicação
    Tenth International Conference on Optical Fibre Sensors

    Abstract

    1994

    TIME-RESOLVED PHOTOLUMINESCENCE AND OPTICALLY DETECTED MAGNETIC-RESONANCE INVESTIGATIONS ON SYNTHETIC DIAMOND

    Autores
    PEREIRA, E; SANTOS, L; PEREIRA, L; HOFMANN, DM; STADLER, W; MEYER, BK;

    Publicação
    PROCEEDINGS OF THE 17TH INTERNATIONAL CONFERENCE ON DEFECTS IN SEMICONDUCTORS, PTS 1-3: ICDS-17

    Abstract

    1998

    <title>Extended-range interrogation scheme for fibre Bragg grating sensors using a multimode laser diode</title>

    Autores
    Moreira, PJ; Ferreira, LAA; Santos, JL; Farahi, F;

    Publicação
    European Workshop on Optical Fibre Sensors

    Abstract

    1998

    <title>Simultaneous strain and temperature sensing using an interferometrically interrogated fibre Bragg grating written in bowtie fibre</title>

    Autores
    Ferreira, LAA; Araujo, FM; Santos, JL; Farahi, F;

    Publicação
    European Workshop on Optical Fibre Sensors

    Abstract

    1999

    <title>Active WDM demodulation scheme for fiber Bragg grating sensors</title>

    Autores
    Araujo, FM; Ferreira, LAA; Santos, JL; Farahi, F;

    Publicação
    Fiber Optic and Laser Sensors and Applications; Including Distributed and Multiplexed Fiber Optic Sensors VII

    Abstract

    2005

    Self-referenced intensity based optical fiber temperature probes for luminescent chemical sensors using quantum dots

    Autores
    Jorge, PAS; Mayeh, M; Benrashid, R; Caldas, P; Santos, JL; Farahi, F;

    Publicação
    17th International Conference on Optical Fibre Sensors, Pts 1 and 2

    Abstract
    The use of semiconductor nano-particles as temperature probes in luminescence chemical sensing applications is addressed. Temperature changes the intensity, the peak wavelength and the spectral width of the quantum dots luminescent emission in a linear and reversible way. Results are presented that show the feasibility of implementing a self-referenced intensity based sensor to perform temperature measurements independent of the optical power level in the sensing system. Additionally, it is demonstrated that self-referenced temperature measurements in multiple points could be performed using reflection or transmission based optical fiber configurations.

    FecharLer Abstract
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