Luminescent decay time techniques for temperature measurement
First Claim
1. A temperature probe comprising:
- an optical fiber bundle having at least one optical fiber;
a temperature sensitive luminescent element having time dependent light emission properties having at least two different time emission components, said temperature sensitive element being attached at one end of said bundle and being adapted to be implanted in such material whose temperature is to be measured;
light source located proximate the other end of said bundle, said light source having a given frequency spectrum for transient excitation of said temperature sensitive luminescent element;
means proximate said other end for separating the light passed from said source toward said temperature sensitive element from that being emitted from said temperature sensitive element; and
light responsive detection and analysis means located proximate said other end of said bundle, said light responsive detection means including means for detecting and analyzing said at least two different time emission components emitted by said temperature sensitive luminescent element as a function of the change in temperature of said temperature sensitive element.
0 Assignments
0 Petitions
Accused Products
Abstract
A thermometry system utilizes the thermally sensitive time dependent emission properties of luminescent materials. In one embodiment the system includes a probe constructed with an optic fiber bundle for conducting light both toward and away from the temperature sensitive luminescent element located at one end of the optic fiber bundle, a source for transient and/or modulated excitation of the temperature sensitive element, and a light responsive detection element located at the output end of the optic fiber bundle for detecting the transient and/or modulated light emissions by the luminescent temperature sensitive element. The emission signal received by the light responsive detector can be analyzed in a well defined manner to determine the temperature of the luminescent element and of any materials in thermal equilibrium with the luminescent material. The temperature sensitive probe can be constructed of non-metallic materials, utilized physical phenomenon which are not affected by electromagnetic (EM) fields over a wide range of field strengths and frequencies and thus has application in special circumstances, eq. temperature measurement in biological materials while such tissue is being irradiated with microwaves.
-
Citations
29 Claims
-
1. A temperature probe comprising:
-
an optical fiber bundle having at least one optical fiber; a temperature sensitive luminescent element having time dependent light emission properties having at least two different time emission components, said temperature sensitive element being attached at one end of said bundle and being adapted to be implanted in such material whose temperature is to be measured; light source located proximate the other end of said bundle, said light source having a given frequency spectrum for transient excitation of said temperature sensitive luminescent element; means proximate said other end for separating the light passed from said source toward said temperature sensitive element from that being emitted from said temperature sensitive element; and light responsive detection and analysis means located proximate said other end of said bundle, said light responsive detection means including means for detecting and analyzing said at least two different time emission components emitted by said temperature sensitive luminescent element as a function of the change in temperature of said temperature sensitive element. - View Dependent Claims (2, 3, 4)
-
-
5. A temperature probe comprising:
-
an optical fiber bundle having at least one optical fiber; a temperature sensitive luminescent element having time dependent light emission properties having at least two different time emission components, said temperature sensitive element being located at one end of said bundle and being adapted to be implanted in such material whose temperature is to be measured; light source located proximate the other end of said bundle, said light source having a given frequency spectrum for modulated excitation of said temperature sensitive luminescent element; means proximate said other end for separating the light passed from said source toward said temperature sensitive element from being emitted from said temperature sensitive element; and light responsive detection and analysis means located proximate said other end of said bundle, said light responsive detection means including means for detecting and analyzing said at least two different time emission components emitted by said temperature sensitive luminescent element as a function of the change in temperature of said temperature sensitive element. - View Dependent Claims (6, 7, 8, 9, 10, 11, 12, 13, 14)
-
-
15. A method of measuring temperature, comprising the steps of:
-
positioning luminescent material in thermal communication with said environment, said luminescent material being characterized by emitting, when excited with transient illumination radiation, a pulse having at least two components with different rates of intensity decay, an initial rapidly decaying component and a subsequent slowly decaying component which continue in time beyond termination of said excitation radiation, the time rates of decay of each of said components varying differently as a function of temperature, directing said transient illumination radiation against said luminescent material, thereby exciting it to luminesce with said at least two component radiation pulse, detecting the luminescence in each of said at least two components of said pulse, and comparing the detected component luminescence, thereby to determine the temperature of said luminescent material and said environment.
-
-
16. A system for measuring temperature, comprising:
-
means containing luminescent material for being positioned in an environment whose temperature is to be measured, said luminescent material being characterized by emitting, when excited by transient illuminating radiation, luminescent radiation that continues in time beyond termination of the excitation radiation and with a rate of intensity decay that is related to the temperature of the luminescent material, means including a source of light radiation for directing luminescent material excitation radiation against said luminescent material, said illuminating means including means for modulating the intensity of the illumination at a given periodic rate prior to its striking the luminescent material, means for detecting the luminescent material luminescent radiation and producing an electrical signal proportional thereto, means receiving said electrical signal for analyzing the signal to obtain two quantities that are independently related to the luminescent material rate of decay, and means for comparing the two quantities, thereby to determine the temperature of the luminescent material.
-
-
17. A method of measuring temperature, comprising the steps of:
-
positioning a quantity of luminescent material in thermal communication with said environment, said luminescent material characterized by emitting, when excited by transient illumination radiation, luminescent radiation that continues in time beyond termination of the excitation radiation and with a rate of intensity decay that is related to the temperature of the luminescent material, illuminating said luminescent material with periodically modulated excitation radiation, thereby exciting it to luminesce with intensity variations, analyzing said luminescent intensity variations into two signal components having a locked phase difference, and comparing the two signal components, whereby the comparison provides a quantity related to the rate of decay of the luminescent material and thus also to the temperature of the luminescent material and said environment. - View Dependent Claims (18, 19, 20)
-
-
21. A method of measuring temperature, comprising the steps of:
-
positioning a quantity of luminescent material in thermal communication with said environment, said luminescent material characterized by emitting, when excited by transient illumination radiation, luminescent radiation that continues in time beyond termination of the excitation radiation and with a rate of intensity decay that is related to the temperature of the luminescent material, illuminating said luminescent material with periodically modulated excitation radiation, thereby exciting it to luminesce with periodic intensity variations, analyzing the emitted radiation intensity variations to detect one periodic intensity component thereof and an average intensity component thereof, and comparing said periodic and average intensity components, whereby the comparison provides a quantity related to the rate of decay of said luminescent material and thus also to the temperature of the luminescent material and of said environment. - View Dependent Claims (22)
-
-
23. A method of measuring temperature, comprising the steps of:
-
positioning a quantity of luminescent material in thermal communication with said environment, said luminescent material characterized by emitting, when excited by transient illumination radiation, luminescent radiation that continues in time beyond termination of the excitation radiation and with a rate of intensity decay that is related to the temperature of the luminescent material, illuminating said luminescent material with periodically modulated excitation radiation, thereby exciting it to luminesce with periodic intensity variations, analyzing the emitted radiation intensity variations to obtain two quantities that vary differently as a function of the luminescent material rate of decay, and comparing the two quantities, whereby the comparison provides a quantity related to the rate of decay of said luminescent material and thus also to the temperature of the luminescent material and of said environment.
-
-
24. A system for measuring temperature, comprising:
-
means containing luminescent material for being positioned in an environment whose temperature is to be measured, said luminescent material being characterized by emitting, when excited by transient illuminating radiation, a pulse of radiation having at least two components with different rates of intensity decay, an initial rapidly decaying component and a subsequent slowly decaying component which continue in time beyond termination of said excitation radiation, the rates of decay of each of said components varying differently as a function of temperature, means including a source of light radiation for directing transient illuminating radiation against said luminescent material, means for detecting the luminescent material luminescent radiation and producing an electrical signal proportional thereto, and means receiving said signal for comparing the rates of decay of said at least two emitted pulse components, thereby to determine temperature of the luminescent material.
-
-
25. A system for measuring temperature, comprising:
-
means containing luminescent material for being positioned in an environment whose temperature is to be measured, said luminescent material being characterized by emitting, when excited by transient illuminating radiation, luminescent radiation that continues in time beyond termination of the excitation radiation and with a rate of intensity decay that is related to the temperature of the luminescent material, means including a source of light radiation for directing luminescent material excitation radiation against said luminescent material, said illuminating means including means for modulating the intensity of the illumination at a given periodic rate prior to its striking the luminescent material, means for detecting the luminescent material luminescent radiation and producing an electrical signal proportional thereto, means receiving signals from said detector and from said modulating means for analyzing said detector signal into two time varying signals having a fixed phase relationship with each other and phase locked to the modulating signal, and means receiving the two fixed phase signals for comparing them, thereby to determine the temperature of the luminescent material. - View Dependent Claims (26, 27)
-
-
28. A system for measuring temperature, comprising:
-
means containing luminescent material for being positioned in an environment whose temperature is to be measured, said luminescent material being characterized by emitting, when excited by transient illuminating radiation, luminescent radiation that continues in time beyond termination of the excitation radiation and with a rate of intensity decay that is related to the temperature of the luminescent material, means including a source of light radiation for directing luminescent material excitation radiation against said luminescent material, said illuminating means including means for modulating the intensity of the illumination at a given periodic rate prior to its striking the luminescent material, means for detecting the luminescent material luminescent radiation and producing an electrical signal proportional thereto, means receiving signals from said detector and from the modulating means for extracting from said detector signal a first component thereof that is a time varying signal and a second component thereof that is an average signal, and means receiving said first and second signals for comparing them, thereby to determine the temperature of said luminescent material. - View Dependent Claims (29)
-
Specification