Method and apparatus for the detection of thermo-optical signals
First Claim
1. Apparatus for measuring thermo-optical response of a rigid specimen, comprising:
- (a) specimen carrier means for holding a rigid specimen;
(b) a first light source producing a first light beam;
(c) an optical system for focusing a small spot of light of said first beam on a surface of said specimen;
(d) scanning means for causing said small spot of light to impinge on different portions of said surface of said specimen;
(e) modulator means for cyclically changing intensity of said first light beam at a predetermined frequency;
(f) a second light source producing a second light beam;
(g) a transparent plate covering said surface of said specimen on which said small spot of light impinges;
(h) said transparent plate being positioned to receive said second light beam at an entrance location and to guide said second light beam through said plate by internal total reflection from said entrance location to an exit location; and
(i) detector means for measuring the intensity of said second light beam issuing from said transparent plate at said exit location, thereby to provide a signal indicative of light absorbance characteristics of said specimen.
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Accused Products
Abstract
Both a method and an apparatus for the detection of thermo-optical signals are disclosed. There is involved a method related to photoacoustic spectroscopy (PAS) in which the heat waves, as a result of the absorption of an amplitude-modulated light beam, are not detected by an acoustic recorder, as in the case of photoacoustic spectroscopy, but rather optically. For this purpose, a second beam of light is conducted over the surface of the specimen and the influence exerted thereon by periodic variations in index of refraction which are dependent on temperature or pressure is measured. For the guiding of the measurement beam a so-called ATR plate known from ATR (attenuated total reflection) spectroscopy is used, it being placed as cover glass over the specimen. Within this plate the measurement light is guided in the vicinity of the critical angle for total reflection at the plate/specimen interface. Changes in index of refraction at the interface as a result of the absorption of the excitation light lead to a detectable modulation of the intensity of the measurement light.
24 Citations
5 Claims
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1. Apparatus for measuring thermo-optical response of a rigid specimen, comprising:
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(a) specimen carrier means for holding a rigid specimen; (b) a first light source producing a first light beam; (c) an optical system for focusing a small spot of light of said first beam on a surface of said specimen; (d) scanning means for causing said small spot of light to impinge on different portions of said surface of said specimen; (e) modulator means for cyclically changing intensity of said first light beam at a predetermined frequency; (f) a second light source producing a second light beam; (g) a transparent plate covering said surface of said specimen on which said small spot of light impinges; (h) said transparent plate being positioned to receive said second light beam at an entrance location and to guide said second light beam through said plate by internal total reflection from said entrance location to an exit location; and (i) detector means for measuring the intensity of said second light beam issuing from said transparent plate at said exit location, thereby to provide a signal indicative of light absorbance characteristics of said specimen. - View Dependent Claims (2, 3, 4, 5)
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Specification