Fiber optic probe for attenuated total internal reflection spectrophotometry
First Claim
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1. A fiber optic probe for use in attenuated total internal reflection spectrophotometry, said probe comprising:
- a probe body having an interior;
at least one light-transmitting fiber in said interior, said transmitting fiber having a distal end;
at least one light-receiving fiber in said interior, said receiving fiber spaced apart from said transmitting fiber, said receiving fiber having a distal end;
a hemispherical lens adjacent said distal ends of said transmitting fiber and said receiving fiber, said lens dimensioned and positioned to receive light from said transmitting fiber, internally reflect at least a portion of said light a desired number of times at an interface between said lens and an external medium, and direct at least a portion of said reflected light to said receiving fiber, said transmitting and receiving fibers positioned so that said light is reflected said desired number of times at said interface before entering said receiving fiber, wherein the desired number of reflections is changed by changing the spacing between said light-transmitting fiber and said light-receiving fiber or by changing the composition of said lens; and
coupling means in said interior for holding said transmitting fiber, said receiving fiber, and said lens in a fixed position with respect to each other within said interior of said housing.
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Abstract
A fiber optic probe for ATIR (Attenuated Total Internal Reflection) spectrophotometry. The probe includes a housing that contains an optical element or lens, a light-transmitting fiber that directs incident light to the lens, a light-receiving fiber that receives reflected light from the sample interface, a coupler for holding these components in precise alignment, and a flexible armor casing that provides strain relief and protection for the optical fibers. The lens is shaped and dimensioned so that light from the transmitting fiber is reflected at the interface between the lens and the surrounding medium (such as a liquid to be analyzed). The reflected light is transmitted via the transmitting fiber to a suitable spectrophotometer, where the light signal is recorded and analyzed to determine the composition of the sample. The probe is particularly suitable for analyses of fluids and slurries with high optical absorbance.
42 Citations
18 Claims
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1. A fiber optic probe for use in attenuated total internal reflection spectrophotometry, said probe comprising:
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a probe body having an interior;
at least one light-transmitting fiber in said interior, said transmitting fiber having a distal end;
at least one light-receiving fiber in said interior, said receiving fiber spaced apart from said transmitting fiber, said receiving fiber having a distal end;
a hemispherical lens adjacent said distal ends of said transmitting fiber and said receiving fiber, said lens dimensioned and positioned to receive light from said transmitting fiber, internally reflect at least a portion of said light a desired number of times at an interface between said lens and an external medium, and direct at least a portion of said reflected light to said receiving fiber, said transmitting and receiving fibers positioned so that said light is reflected said desired number of times at said interface before entering said receiving fiber, wherein the desired number of reflections is changed by changing the spacing between said light-transmitting fiber and said light-receiving fiber or by changing the composition of said lens; and
coupling means in said interior for holding said transmitting fiber, said receiving fiber, and said lens in a fixed position with respect to each other within said interior of said housing. - View Dependent Claims (2, 3, 4, 5)
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6. A fiber optic probe for use in attenuated total internal reflection spectrophotometry, said probe comprising:
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a probe body having an interior, a proximal end, and a distal end;
at least one light-transmitting fiber positioned in said interior, said transmitting fiber having a distal end;
at least one light-receiving fiber positioned in said interior, said receiving fiber spaced apart from said transmitting fiber, said receiving fiber having a distal end;
a hemispherical lens having a flat side and a curved side, said flat side adjacent said distal ends of said transmitting fiber and said receiving fiber, said lens dimensioned and positioned so that an optimum portion of light entering said lens from said transmitting fiber is internally reflected a desired number of times at an interface between said lens and an external medium, said transmitting and receiving fibers positioned so that said light is reflected said desired number of times at said interface before entering said receiving fiber, wherein the desired number of reflections is changed by changing the spacing between said light-transmitting fiber and said light-receiving fiber and said light-receiving fiber or by changing the composition of said lens; and
a coupler fixed in said interior, said coupler holding said transmitting fiber and said receiving fiber in a fixed position with respect to said lens. - View Dependent Claims (7, 8, 9, 10, 11, 12)
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13. A method for making a fiber optic probe for use in attenuated total internal reflection spectrophotometry, said method comprising the steps of:
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fixing at least one light-transmitting fiber in a coupler, said coupler having a longitudinal axis so that said transmitting fiber is approximately parallel to said longitudinal axis;
fixing at least one light-receiving fiber in said coupler so that said receiving fiber is approximately parallel to said longitudinal axis;
installing said coupler with said transmitting and receiving fibers in a probe body; and
installing a lens at a distal end of said probe body, said lens being configured to receive light from said receiving fiber, internally reflect at least a portion of said light a desired number of times at an interface between said lens and an external medium, and direct at least a portion of said reflected light to wherein the desired number of reflections is changed by changing the spacing between said light-transmitting fiber and said light-receiving fiber or by changing the composition of said lens. - View Dependent Claims (14, 15, 16, 17, 18)
selecting said lens from a group consisting of generally hemispherical lenses having one flat side and one curved side;
fixing a distal end of said transmitting fiber in optical communication with said flat side; and
fixing a distal end of said receiving fiber in optical communication with said flat side.
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15. The method as recited in claim 14, wherein said transmitting and receiving fibers each have a proximal end, further comprising the steps of:
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placing a connector over said proximal ends so that said proximal ends exit at one end of said connector; and
placing a flexible sheath over said proximal ends.
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16. The method as recited in claim 14, further comprising the next steps of:
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installing a crimp sleeve over said flexible sheath;
installing a flexible armor casing over said crimp sleeve; and
affixing said flexible armor casing to said distal end of said probe body.
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17. The method as recited in claim 14, wherein said flexible armor casing is made of metal or aramid fiber material.
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18. The method as recited in claim 14, further comprising the step of cementing said flexible sheath, said crimp sleeve, and said flexible armor casing with high-temperature epoxy.
Specification
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Current AssigneeInternal Revenue Service (Government of the United States of America)
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Original AssigneeEquitech Incorporated
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InventorsToole, William R. Jr., OʼRourke, Patrick E.
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Primary Examiner(s)Sanghavi, Hemang
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Assistant Examiner(s)CUSHWA, BENJAMIN H
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Application NumberUS09/032,073Time in Patent Office1,117 DaysField of Search385/31, 385/33, 385/36, 385/76, 385/86, 385/87, 385/119, 385/12, 385/13, 359/534, 250/216, 250/573, 250/577US Class Current385/33CPC Class CodesG01N 21/552 Attenuated total reflectionG02B 6/241 Light guide terminationsG02B 6/32 having lens focusing means ...G02B 6/3624 Fibre head, e.g. fibre prob...
