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A high-resolution bio-optical sensor is developed for brain activity measurement. The aim is to develop an optical sensor with enough sensitivity to detect small electric field perturbations caused by neuronal action potential. The sensing element is a polymeric dielectric micro-resonator fabricated in a spherical shape with a few hundred microns in diameter. They are made of optical quality polymers that are soft which make them mechanically compatible with tissue. The sensors are attached to or embedded in optical fibers which serve as input/output conduits for the sensors. Hundreds or even…mehr

Produktbeschreibung
A high-resolution bio-optical sensor is developed for brain activity measurement. The aim is to develop an optical sensor with enough sensitivity to detect small electric field perturbations caused by neuronal action potential. The sensing element is a polymeric dielectric micro-resonator fabricated in a spherical shape with a few hundred microns in diameter. They are made of optical quality polymers that are soft which make them mechanically compatible with tissue. The sensors are attached to or embedded in optical fibers which serve as input/output conduits for the sensors. Hundreds or even thousands of spheres can be attached to a single fiber to detect and transmit signals at different locations. In this book we recently demonstrated the feasibility of micro-optical sensors as solution for bio-medical sensing devices and Industrial Automation as well.
Autorenporträt
Mohamed Massoud, Yasmin
Yasmin Massoud graduated from the GUC in Cairo in 2015 with a Bachelor's Degree in Electronics Engineering. She joined the ARAtronics Lab as a Msc student in the optical sensing sub-team and defended his M.Sc. thesis work in Jul. 2017 under the supervision of Assist. Prof. Dr. Amir Roushdy Ali who is the ARAtronics Group Director and the PI