Temperature-sensitive optrode
First Claim
1. A method for sensing temperature and for generating optical signals related to said temperature, the method comprising the steps of:
- (a) providing a fiber optic through which at least one light beam from at least one associated light source is transmitted from a first end of the fiber optic to a second end of the fiber optic;
(b) providing an integral fluorescent solid illuminated by at least one light beam from the one or more associated light sources, the integral fluorescent solid further having a shape which is radially symmetric about a longitudinal axis and having a surface which is tapered along the longitudinal axis from a proximal end to a distal end, the proximal end having a diameter substantially the same as the diameter of the core of the fiber optic, and the proximal end being attached to the second end of the fiber optic such that the longitudinal axis of the integral fluorescent solid is substantially coaxial to the longitudinal axis of the fiber optic;
(c) sensing fluorescence produced by the integral fluorescent solid and collected and transmitted by the same fiber optic used to transmit light beams from the one or more associated light sources; and
(d) determining temperature from a predetermined fluorescence-versus-temperature relationship for the integral fluorescent solid.
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Accused Products
Abstract
Method and apparatus are provided for measuring temperature and for generating optical signals related to temperature. Light from a fiber optic is directed to a material whose fluorescent response varies with ambient temperature. The same fiber optic delivering the excitation beam also collects a portion of the fluorescent emission for analysis. Signal collection efficiency of the fiber optic is enhanced by requiring that the fluorescent probe material be in the shape of an oblong parabolically tapered solid. Reproducibility is enhanced by using Raman backscatter to monitor excitation beam fluctuations, and by using measurements of fluorescence lifetime.
67 Citations
22 Claims
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1. A method for sensing temperature and for generating optical signals related to said temperature, the method comprising the steps of:
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(a) providing a fiber optic through which at least one light beam from at least one associated light source is transmitted from a first end of the fiber optic to a second end of the fiber optic; (b) providing an integral fluorescent solid illuminated by at least one light beam from the one or more associated light sources, the integral fluorescent solid further having a shape which is radially symmetric about a longitudinal axis and having a surface which is tapered along the longitudinal axis from a proximal end to a distal end, the proximal end having a diameter substantially the same as the diameter of the core of the fiber optic, and the proximal end being attached to the second end of the fiber optic such that the longitudinal axis of the integral fluorescent solid is substantially coaxial to the longitudinal axis of the fiber optic; (c) sensing fluorescence produced by the integral fluorescent solid and collected and transmitted by the same fiber optic used to transmit light beams from the one or more associated light sources; and (d) determining temperature from a predetermined fluorescence-versus-temperature relationship for the integral fluorescent solid. - View Dependent Claims (2, 3)
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4. An apparatus for sensing temperature and for generating optical signals related to said temperatures, the apparatus comprising:
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(a) a fiber optic having a core through which at least one beam of light from at least one associated light source is transmitted from a first end of the fiber optic to a second end of the fiber optic; (b) an integral fluorescent solid illuminated by at least one light beam from the at least one associated light source, the integral fluorescent solid further having a shape which is radially symmetric about a longitudinal axis and having a surface which is tapered along the longitudinal axis from a proximal end to a distal end, the proximal end having a diameter substantially the same as a diameter of the core of the fiber optic and greater than a diameter of the distal end, and the proximal end being attached to the second end of the fiber optic such that the longitudinal axis of the integral fluorescent solid is substantially coaxial to a longitudinal axis of the fiber optic; and (c) detection means for measuring the fluorescence produced by the integral fluorescent solid and collected and transmitted by the same fiber optic used to transmit at least one light beam from the at least one associated light source, the detection means being operationally associated with the first end of the fiber optic. - View Dependent Claims (5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
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19. A method for sensing temperature and for generating optical signals related to said temperature, the method comprising the steps of:
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(a) providing a fiber optic through which at least one light beam from at least one associated light source is transmitted from a first end of the fiber optic to a second end of the fiber optic; (b) providing an integral fluorescent solid illuminated by at least one light beam from the one or more associated light sources, the integral fluorescent solid further having a shape which is radially symmetric about a longitudinal axis and having a surface which is tapered along the longitudinal axis from a proximal end to a distal end, the proximal end having a diameter substantially tne same as the diameter of the core of the fiber optic, and the proximal end being attached to the second end of the fiber optic such that the longitudinal axis of the integral fluorescent solid is substantially coaxial to the longitudinal axis of the fiber optic; (c) measuring the intensity of the fluorescence produced by the integral fluorescent solid and collected and transmitted by the same fiber optic used to transmit light beams from the one or more associated light sources; (d) detecting the intensity of Raman scattered light emanating from said fiber optic due to said at least one light beam from said at least one associated light source; (e) monitoring the ratio of the intensity of the Raman scattered light and the ratio of intensity of said fluorescence, the two intensities substantially corresponding to the common illumination beam frequency generated by said at least one associated light source; and (f) determining temperature from a predetermined ratio-versus-temperature relationship for said integral fluorescent solid and for said illumination beam frequency.
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20. An apparatus for sensing temperature and for generating optical signals related to said temperature, the apparatus comprising:
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(a) a fiber optic having a core through which at least one beam of laser light from at least one associated light source is transmitted from a first end of the fiber optic to a second end of the fiber optic; (b) an integral fluorescent solid illuminated by at least one light beam from the at least one associated light source, the integral fluorescent solid further having a shape which is radially symmetric about a longitudinal axis and having a surface which is substantially parabolically tapered along the longitudinal axis from a proximal end to a distal end, the proximal end having a diameter substantially the same as the diameter of the core of the fiber optic, and the proximal end being attached to the second end of the fiber optic such that the longitudinal axis of the integral fluorescent solid is substantially coaxial to the longitudinal axis of the fiber optic; (c) Raman reference means for measuring the intensity of Raman scattered light emanating from said fiber optic due to light transmitted from said at least one associated light source, said Raman reference means being operationally coupled to said first end of said fiber optic; and (d) detection means for measuring the fluorescence produced by the integral fluorescent solid and collected and transmitted by the same fiber optic used to transmit at least one light beam from the at least one associated light sources, said detection means being operationally coupled to the first end of said fiber optic.
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21. A method for sensing temperature and for generating optical signals related to said temperature, the method comprising the steps of:
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(a) providing a fiber optic through which at least one light beam from at least one associated light source is transmitted from a first end of the fiber optic to a second end of the fiber optic; (b) providing an integral fluorescent solid illuminated by at least one light beam from the one or more associated light sources, the integral fluorescent solid further having a shape which is radially symmetric about a longitudinal axis from a proximal end to a distal end, the proximal end having a diameter substantially the same as the diameter of the core of the fiber optic, and the proximal end being attached to the second end of the fiber optic such that the longitudinal axis of the integral fluorescent solid is substantially coaxial to the longitudinal axis of the fiber optic; (c) measuring the intensity of the fluorescence produced by the integral fluorescent solid and collected and transmitted by the same fiber optic used to transmit light beams from the one or more associated light sources; (d) determining temperature from a predetermined ratio-versus-temperature relationship for said integral fluorescent solid and for said illumination beam frequency.
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22. An apparatus for sensing temperature and for generating optical signals related to said temperature, the apparatus comprising:
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(a) a fiber optic having a core through which at least one beam of laser light from at least one associated light source is transmitted from a first end of the fiber optic to a second end of the fiber optic; (b) an integral fluorescent solid illuminated by at least one light beam from the at least one associated light source, the integral fluorescent solid further having a shape which is radially symmetric about a longitudinal axis from a proximal end to a distal end, the proximal end having a diameter substantially the same as the diameter of the core of the fiber optic, and the proximal end being attached to the second end of the fiber optic such that the longitudinal axis of the integral fluorescent solid is substantially coaxial to the longitudinal axis of the fiber optic; (c) detection means for measuring the fluorescence produced by the integral fluorescent solid and collected and transmitted by the same fiber optic used to transmit at least one light beam from the at least one associated light sources, said detection means being operationally coupled to the first end of said fiber optic.
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Specification