Infrared spectrometer for the measurement of isotopic ratios

US 6,486,474 B1
Filed: 08/13/1999
Issued: 11/26/2002
Est. Priority Date: 08/13/1999
Status: Expired due to Term

First Claim

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1. A multipass optical cell comprising:

a field mirror having a focal length and a center axis;

a two segment objective mirror generally facing the field mirror wherein the two segments are displaced from each other to move their respective focal points away from each other; and

a prismatic mirror displaced from the field mirror by less than about 20 percent of the focal length of the field mirror, wherein the edge of intersecting faces of the prismatic mirror is generally oriented toward the objective mirror and wherein the plane bisecting the two faces of the prismatic mirror pass through the two segments of the objective mirror.

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Abstract

An infrared spectrometer for the determination of isotopic ratios of gaseous compounds includes a broad-band infrared light source, a spectral selector, a sample compartment, an infrared detector, and a processor. The spectral selector selectively transmits a wavelength window of infrared light covering a range of wavelengths in which the wavelength window can be selected alternatively to overlap with a wavelength range primarily absorbed by a compound with a first isotope or by the compound with a second isotope. The sample compartment holds a gas sample and includes a gas inlet and a gas outlet. The infrared spectrometer can be used to detect isotopic ratios of carbon dioxide, where enhancement of ¹³CO₂can indicate metabolic activity of an infection, for example by H. pylori, or of specific enzymes. Preferred embodiments use a particular multipass optical cell that includes a field mirror and a multi-segment objective mirror.

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18 Claims

1. A multipass optical cell comprising:
- a field mirror having a focal length and a center axis;
  
  a two segment objective mirror generally facing the field mirror wherein the two segments are displaced from each other to move their respective focal points away from each other; and
  
  a prismatic mirror displaced from the field mirror by less than about 20 percent of the focal length of the field mirror, wherein the edge of intersecting faces of the prismatic mirror is generally oriented toward the objective mirror and wherein the plane bisecting the two faces of the prismatic mirror pass through the two segments of the objective mirror.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
- - 2. The multipass optical cell of claim 1 wherein the field mirror comprises a spherical mirror having a radius of curvature.
  - 3. The multipass optical cell of claim 2 wherein the segments of the objective mirror are portions of a spherical mirror having a radius of curvature approximately equal the radius of curvature of the field mirror, and wherein the distance between the field mirror and the objective mirror is approximately equal to the radius of curvature of the field mirror.
  - 4. The multipass optical cell of claim 1 wherein the prismatic mirror is mounted adjacent the field mirror.
  - 5. The multipass optical cell of claim 1 wherein the angle between the faces of the prismatic mirror is selected to reflect the optical path to approximately one segment of the objective mirror approximately along the intersection of the symmetry plane of the prismatic mirror and the objective mirror.
  - 6. The multipass optical cell of claim 1 wherein a focused light beam entering the optical cell reflects between about 10 times and about 100 times within the cell prior to exit from the cell.
  - 7. The multipass optical cell of claim 1 wherein the objective mirror has an adjustable mount that adjusts the orientation of the objective mirror.
  - 8. The multipass optical cell of claim 1 wherein the field mirror has an adjustable mount that adjusts the orientation of the field mirror.
  - 9. The multipass optical cell of claim 1 wherein the separation between portions of the two segment objective mirror is between about 1 mm and about 10 mm.
  - 10. The multipass optical cell of claim 1 further comprising a generally cylindrical tube forming a sealed gas compartment surrounding the mirrors and the prism, the gas compartment having a gas inlet and a gas outlet.
  - 11. The multipass optical cell of claim 10 wherein the cylindrical tube comprises a first window providing an optical path to the a first angled surface of the prismatic mirror and a second window providing an optical path from the other angled surface of the prismatic mirror out of the optical cell.
  - 12. The multipass optical cell of claim 11 wherein the two windows are positioned to form a straight line optical path perpendicular to a plane through the symmetry axis of the field mirror, wherein the straight line optical path is interrupted by the prismatic mirror, and wherein the angled faces of the prism meet at an angle greater than about 90°
    - .
  - 13. The multipass optical cell of claim 11 wherein the windows have a curved surface.
  - 14. The multipass optical cell of claim 1 wherein a shield opaque to infrared light extends from near the edge joining the two faces of the prismatic mirror.
  - 15. The multipass optical cell of claim 1 further comprising a pressure sensor that monitors the pressure within the cell.
  - 16. The multipass optical cell of claim 1 further comprising a temperature sensor and a temperature conditioner.
  - 17. The multipass optical cell of claim 16 wherein the temperature conditioner comprises a heater including electrically insulated wire wrapped around a gas enclosure.
  - 18. The multipass optical cell of claim 1 further comprising a pump and valves that are controlled to maintain the pressure within the cell from about 50 kPa to about 100 kPa.

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Current Assignee
Regents of The University of Minnesota (University of Minnesota)
Original Assignee
Regents of The University of Minnesota (University of Minnesota)
Inventors
Tokhtuev, Eugene, Owen, Christopher J., Skirda, Anatoly, Slobodyan, Viktor, Tokhtuev, Alexander, Carlson, Robert M.
Primary Examiner(s)
Hannaher, Constantine
Assistant Examiner(s)
Israel, Andrew

Application Number

US09/374,719
Time in Patent Office

1,201 Days
Field of Search

250/339.02, 356/246, 356/440, 356/244
US Class Current

250/339.02
CPC Class Codes

G01J 3/0208   using focussing or collimat...

G01J 3/0232   using shutters

G01J 3/42   Absorption spectrometry; Do...

G01N 21/031   Multipass arrangements

G01N 21/3504   for analysing gases, e.g. m...

Infrared spectrometer for the measurement of isotopic ratios

First Claim

1 Assignment

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Abstract

75 Citations

18 Claims

Specification

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Infrared spectrometer for the measurement of isotopic ratios

First Claim

1 Assignment

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Accused Products

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Abstract

75 Citations

18 Claims

Specification

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Use Cases

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Others