Cavity enhanced fiber optic and waveguide chemical sensor
First Claim
1. A chemical sensor, comprising:
- a diode laser source producing laser light;
means for wavelength modulating the laser light output from the diode laser, the wavelength modulation amplitude being at least 0.1 nm and the modulation rate being at least 100 Hz;
an optical fiber waveguide having an input optically coupled to receive the modulated laser light and having an output, the optical fiber waveguide including a chemically sensitive cladding layer responsive to the presence of a specific class of chemicals in the environment around the cladding layer so as to produce a change in the cladding refractive index that alters the light propagation characteristics of the fiber waveguide, the optical fiber waveguide further including a fiber core with a pair of grating reflectors formed therein, the grating reflectors defining an optical cavity therebetween; and
a photodetector optically coupled to said output of said optical fiber waveguide to receive laser light transmitted through said fiber.
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Accused Products
Abstract
Chemically specific fiber and waveguide sensors are formed in a fiber optic or optical waveguide material in which injected light is trapped within a Bragg grating optical cavity. The Bragg cavity effectively traps the light for long times, corresponding to effective path lengths equal to hundreds or thousands of meters in the fiber or waveguide medium. The Bragg grating optical cavity is surrounded by a cladding of chemically sensitive material whose optical properties change when exposed to specific chemicals or classes of chemicals. The change in the optical properties of the cladding results in a change in the light trapping characteristics of the fiber or waveguide. Changes in optical transmission of the fiber optic or waveguide sensor can then be related to the concentration of specific chemicals or classes of chemicals in the environment surrounding the sensor.
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Citations
9 Claims
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1. A chemical sensor, comprising:
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a diode laser source producing laser light;
means for wavelength modulating the laser light output from the diode laser, the wavelength modulation amplitude being at least 0.1 nm and the modulation rate being at least 100 Hz;
an optical fiber waveguide having an input optically coupled to receive the modulated laser light and having an output, the optical fiber waveguide including a chemically sensitive cladding layer responsive to the presence of a specific class of chemicals in the environment around the cladding layer so as to produce a change in the cladding refractive index that alters the light propagation characteristics of the fiber waveguide, the optical fiber waveguide further including a fiber core with a pair of grating reflectors formed therein, the grating reflectors defining an optical cavity therebetween; and
a photodetector optically coupled to said output of said optical fiber waveguide to receive laser light transmitted through said fiber. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A sensor, comprising:
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a laser light source producing laser light and which is wavelength modulated over a plurality of optical cavity modes at a modulation rate of at least 100 Hz;
a waveguide having an input and optically coupled to receive said laser light and having an output and, the waveguide having an environmentally sensitive cladding layer responsive to the presence of a measurand of interest in the environment around said cladding layer in a manner that alters the light propagation properties of said waveguide, the waveguide having a pair of grating reflectors formed therein and defining an optical cavity therebetween; and
a photodetector optically coupled to said output of said waveguide to receive laser light transmitted through said waveguide.
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Specification