Variable coupler fiber optic sensor hydrophone
First Claim
1. An acoustic sensing device comprisinga rigid plate having a high inertial mass and an aperture completely disposed therethrough,a fiber optic coupler encapsulated in said aperture having a plurality of input optical fibers each having a core, said cores of said optical fibers being merged and fused in a waist region to form a common optical core wherefrom a plurality of output optical fibers emerge, said fiber optic coupler for distributing light energy incident to one of said input optical fibers between said plurality of output optical fibers, andencapsulate means for encapsulating said common optical core in said aperture, said encapsulant means having refractive index variable with stress applied thereto, such that said incident light energy is distributed between said plurality of output optical fibers as a function of stress applied to said encapsulant means,said rigid plate having a substantially higher inertial mass than said encapsulant means with said common optical core encapsulated therein,a member having a well therein or positioned with respect to said rigid plate so that said well is adjacent said aperture, anda low bulk modulus material filling said well and abutting said encapsulant means.
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Abstract
A rigid plate with an aperture therethrough has a variable coupler fiber optic sensor encapsulated in the aperture by an encapsulant having an index of refraction that varies with applied stress. Incident light applied to an input fiber of the coupler is coupled to the output fibers thereof in a ratio dependent on the stress applied to the encapsulant. In an alternative embodiment, a well in a member superposed with respect to the plate is filled with a low bulk modulus material which abuts the encapsulant.
36 Citations
12 Claims
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1. An acoustic sensing device comprising
a rigid plate having a high inertial mass and an aperture completely disposed therethrough, a fiber optic coupler encapsulated in said aperture having a plurality of input optical fibers each having a core, said cores of said optical fibers being merged and fused in a waist region to form a common optical core wherefrom a plurality of output optical fibers emerge, said fiber optic coupler for distributing light energy incident to one of said input optical fibers between said plurality of output optical fibers, and encapsulate means for encapsulating said common optical core in said aperture, said encapsulant means having refractive index variable with stress applied thereto, such that said incident light energy is distributed between said plurality of output optical fibers as a function of stress applied to said encapsulant means, said rigid plate having a substantially higher inertial mass than said encapsulant means with said common optical core encapsulated therein, a member having a well therein or positioned with respect to said rigid plate so that said well is adjacent said aperture, and a low bulk modulus material filling said well and abutting said encapsulant means.
Specification