T.E. Koscica scite author profile

We present an original method to improve the spatial resolution of a Brillouin distributed temperature and strain sensing system (DTSS). This method is shown to substantially improve the spatial resolution, while simultaneously strengthening the Brillouin backscattered light, which is based on the combination of an internal modulation of the laser source and an external modulator to generate two separate light pulses with different central wavelengths and pulse widths. Moreover, a novel Brillouin signal detection method, which we called isogenous heterodyne detection, is introduced, which is equivalent to a heterodyne detection scheme but is only with Rayleigh and Brillouin backscattered light without the need of an extra reference light. These new technical approaches have been incorporated into a fiber optic DTSS with 13 km single-mode fiber, which clearly successfully demonstrated all the advantages over conventional DTSS approaches in theory and the feasibility in experiment.

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Fabrication and performance of coplanar ferroelectric phase shifter

Wilber

Drach

Koscica

et al. 1998

Integrated Ferroelectrics

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T.E. Koscica

Ferroelectric phase shifters and their performance in microwave phased array antennas

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Fiber optic distributed temperature and strain sensing system based on Brillouin light scattering

Fabrication and performance of coplanar ferroelectric phase shifter

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