Sultan Sovetov scite author profile

We propose a setup for multiplexed distributed optical fiber sensors capable of resolving temperature distribution in thermo-therapies, with a spatial resolution of 2.5 mm over multiple fibers interrogated simultaneously. The setup is based on optical backscatter reflectometry (OBR) applied to optical fibers having backscattered power significantly larger than standard fibers (36.5 dB), obtained through MgO doping. The setup is based on a scattering-level multiplexing, which allows interrogating all the sensing fibers simultaneously, thanks to the fact that the backscattered power can be unambiguously associated to each fiber. The setup has been validated for the planar measurement of temperature profiles in ex vivo radiofrequency ablation, obtaining the measurement of temperature over a surface of 96 total points (4 fibers, 8 sensing points per cm 2). The spatial resolution obtained for the planar measurement allows extending distributed sensing to surface, or even three-dimensional, geometries performing temperature sensing in the tissue with millimeter resolution in multiple dimensions.

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Fiber Bragg Grating Sensor for Temperature Monitoring During HIFU Ablation of Ex Vivo Breast Fibroadenoma

Jelbuldina

Korganbayev²,

Seidagaliyeva

et al. 2019

IEEE Sens. Lett.

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Thermal gradient estimation with fiber-optic chirped FBG sensors: Experiments in biomedical applications

Korganbayev

Orazayev

Sovetov

et al. 2017

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2D temperature sensing obtained by multiplexing of optical backscattering reflectometry

Issatayeva¹,

Beisenova²,

Sovetov³

et al. 2020

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Sultan Sovetov

Detection of thermal gradients through fiber-optic Chirped Fiber Bragg Grating (CFBG): Medical thermal ablation scenario

Multi-fiber distributed thermal profiling of minimally invasive thermal ablation with scattering-level multiplexing in MgO-doped fibers

Fiber Bragg Grating Sensor for Temperature Monitoring During HIFU Ablation of Ex Vivo Breast Fibroadenoma

Thermal gradient estimation with fiber-optic chirped FBG sensors: Experiments in biomedical applications

2D temperature sensing obtained by multiplexing of optical backscattering reflectometry

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