Refraction sensor
First Claim
1. An index of refraction sensor for monitoring the index of refraction of a material external to a sensing face on the sensor by establishing at least one critical wavelength comprising in combination:
- a first radiant energy path means comprising a single mode optical fiber waveguide and a second radiant energy path means comprising an optical fiber waveguide, said second optical fiber waveguide capable of being long enough to allow remote detection of the index of refraction;
a broad-band radiant energy source means optically coupled to said first radiant energy path means, having a band width chosen to span any of said critical wavelengths expected in a given application;
collimating means within the radiant energy path to render the incident radiant energy a parallel beam;
sensing means prismatically configured so as to provide a direct reflective path from said first waveguide means, through said sensing means, to said second waveguide means, said sensing means possessing a sensing face which reflects a portion of the broadband incident radiant energy as a function of the index of refraction of the material external to the prism sensor face, the portion including any of said expected critical wavelengths;
detecting and monitoring means optically coupled to said second radiant energy path means for simultaneously and continuously detecting the intensities of the separate wavelengths of the broad-band radiant energy that is reflected from the prism sensor face to the detector, the detecting means continuously correlating said at least one wavelengths where the reflected spectral intensity abruptly changes with the index of refraction of the material external to the sensing means.
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Abstract
An index of refraction sensor utilizing a sensor face inclined at the nominal critical angle of an incident beam, refracts or reflects this incident radiation depending upon the wavelength of that radiation and the index of refraction external to it. The refraction sensor apparatus includes a broadband radiant energy source, a radiant energy guidance and collimating means, a prism sensing element interposed in the radiant energy guide, and a detector for continuously detecting the spectral intensities of the broadband radiant energy reflected by the prism sensing element. Advantageously, a single mode optical fiber may be used as the radiant energy guidance and collimating means for directing the broadband radiant energy to the prism and a multimode optical fiber may be used for returning the reflected radiant energy to the detector. The prism sensing element is fabricated of a suitable transparent material, that material ranging from silica to dense flint glass to titanium dioxide depending upon the desired optical dispersion and sensitivity. Additionally, the single mode optical fiber end itself can be ground and polished to be the prism sensing element and, with a mirrored face at a particular angle to the reflected ray, the single mode fiber can also be the return guidance means to the detector.
45 Citations
11 Claims
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1. An index of refraction sensor for monitoring the index of refraction of a material external to a sensing face on the sensor by establishing at least one critical wavelength comprising in combination:
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a first radiant energy path means comprising a single mode optical fiber waveguide and a second radiant energy path means comprising an optical fiber waveguide, said second optical fiber waveguide capable of being long enough to allow remote detection of the index of refraction; a broad-band radiant energy source means optically coupled to said first radiant energy path means, having a band width chosen to span any of said critical wavelengths expected in a given application; collimating means within the radiant energy path to render the incident radiant energy a parallel beam; sensing means prismatically configured so as to provide a direct reflective path from said first waveguide means, through said sensing means, to said second waveguide means, said sensing means possessing a sensing face which reflects a portion of the broadband incident radiant energy as a function of the index of refraction of the material external to the prism sensor face, the portion including any of said expected critical wavelengths; detecting and monitoring means optically coupled to said second radiant energy path means for simultaneously and continuously detecting the intensities of the separate wavelengths of the broad-band radiant energy that is reflected from the prism sensor face to the detector, the detecting means continuously correlating said at least one wavelengths where the reflected spectral intensity abruptly changes with the index of refraction of the material external to the sensing means. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 10, 11)
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9. A method for sensing the index of refraction in the oceans at locations that are remote from a detector having prism sensing means, light source, and optical fiber which are expendable, the method comprising:
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fabricating an index of refraction sensor from a transparent material having a sensing face with spectral reflection characteristics over a preselected bandwidth which includes at least one expected critical wavelength as a function of the index of refraction of the external fluid, said sensor being prismatically configured so as to provide a second mirrored face to reflect the reflected radiant energy through said sensing means; providing a broad-band radiation source for said preselected bandwidth; optically coupling the sensor to the radiation source with a single mode optical fiber waveguide; providing a detector capable of simultaneously and continuously detecting the intensity change of all the individual wavelengths reflected from the prism sensing face as a function of the index of refraction of the external fluid; optically coupling the sensing means to the detector with an extended, reeled second optical fiber waveguide; unreeling the extended second optical waveguide as the measurement is made; continuously sensing the index of refraction by directing the radiation along a direct reflective path from said first optical fiber waveguide, through said prism sensing means, to said second optical fiber waveguide, and continuously detecting the spectral intensities of the radiation reflected from the sensing means as a function of the index of refraction external to the sensing means; and
allowing said second optical fiber waveguide to be severed when the measurement is complete.
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Specification
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Current AssigneeSeaver, George A.
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Original AssigneeSeaver, George A.
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InventorsSeaver, George A.
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Primary Examiner(s)Rosenberger, R. A.
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Assistant Examiner(s)Cooper, Crystal D.
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Application NumberUS06/719,399Time in Patent Office923 DaysField of Search356/136, 356/137, 356/135, 356/133, 356/128US Class Current356/136CPC Class CodesG01N 21/431 Dip refractometers, e.g. us...
