Ultrasensitive spectrophotometer
First Claim
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1. A spectrophotometer, comprising:
- a sealed housing lacking an internal light source;
a reference cell mounted in said housing;
a sample cell mounted in said housing;
an optical system within the housing to deliver an externally generated light beam through at least two paths, one path passing through the reference cell and another through said sample cell;
a reference light detector for detecting light passing through the reference cell;
a sample light detector for detecting light passing through the sample cell;
a light guide for delivering the externally generated light beam into said optical system from a light source external to said sealed housing.
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Abstract
The invention concerns improvements in spectrophotometry. Aspects of the invention may be used independently or together to increase the sensitivity of spectrophotometry. One aspect of the invention is a spectrophotometer detection circuit. In this aspect of the invention, currents attributable to reference and sample beams are cancelled in the current mode. The detection circuit produces a first voltage proportional to the difference in currents and a second voltage proportional to one of the reference or sample beams. Both voltages are available to allow simultaneous measurement and analysis. Another aspect of the invention concerns thermal stability. According to the invention, thermal conductivity is established among the housing and optical system components to promote equilibrium. Another preferred embodiment has a unitary solid metal housing with a hollowed portion defined to mount and place optical system components. Recognition and identification of important noise sources in spectrophotometers forms an aspect of the invention contributing to the features and combinations of features in preferred embodiments. Many noise sources would not normally be considered in conventional spectrophotometry because the magnitude of particular noise sources dominates device performance.
57 Citations
38 Claims
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1. A spectrophotometer, comprising:
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a sealed housing lacking an internal light source;
a reference cell mounted in said housing;
a sample cell mounted in said housing;
an optical system within the housing to deliver an externally generated light beam through at least two paths, one path passing through the reference cell and another through said sample cell;
a reference light detector for detecting light passing through the reference cell;
a sample light detector for detecting light passing through the sample cell;
a light guide for delivering the externally generated light beam into said optical system from a light source external to said sealed housing. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
a light source external to said housing and optically coupled to said light guide.
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4. The spectrophotometer according to claim 1, further comprising a wavelength filter optically coupled to said light guide.
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5. The spectrophotometer according to claim 4, wherein said wavelength filter comprises an ultraviolet cutoff filter and an infrared cutoff filter.
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6. The spectrophotometer of claim 1, wherein said light guide comprises an optical fiber.
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7. The spectrophotometer of claim 6, further comprising means for reducing polarization dependence of light from said light guide.
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8. The spectrophotometer of claim 7, wherein said means for reducing polarization dependence comprises a holographic diffuser.
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9. The spectrophotometer according to claim 7, further comprising a dielectric beam splitter for splitting the externally generated light beam into separate sample and reference beams emergent on the two paths.
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10. A spectrophotometer comprising:
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a housing;
a reference cell mounted in said housing;
a sample cell mounted in said housing;
an optical system within the housing to split a light beam into reference and sample beams and deliver reference and sample beams respectively along one path passing through the reference cell and another path through said sample cell;
a reference light detector for detecting light passing through the reference cell;
a sample light detector for detecting light passing through the sample cell; and
a detector circuit receiving a reference current from said reference light detector and a sample current from said sample light detector, said detector circuit producing a difference voltage proportional to the difference between the reference current and the sample current by a current mode subtraction at a summing point having feedback to balance said reference current and said sample current to produce a difference current that is then converted to the difference voltage, said detector circuit simultaneously producing the difference voltage and at least one of a voltage proportional to said reference current and a voltage proportional to said sample current. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18, 19)
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20. A spectrophotometer comprising:
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means for obtaining a reference current and a sample current respectively proportional to power of light passed through a reference and power of light passed through a sample;
a detector circuit receiving said reference current and said sample current, said detector circuit producing a difference voltage proportional to the difference between the reference current and the sample current by a current mode subtraction to produce a difference current that is then converted to the difference voltage; and
said detector circuit simultaneously producing the difference voltage and at least one of a voltage proportional to said reference current and a voltage proportional to said sample current. - View Dependent Claims (21, 22, 23, 24, 25, 26)
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27. A spectrophotometer comprising:
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a housing;
a reference cell mounted in said housing;
a sample cell mounted in said housing;
an optical system within the housing to split a light beam into reference and sample beams and deliver reference and sample beams respectively along one path passing through the reference cell and another path through said sample cell;
a reference light detector for detecting light passing through the reference cell, said reference light detector mounted in a reference detector housing that sets said reference light detector at an angle that is not perpendicular to said reference beam;
a sample light detector for detecting light passing through the sample cell, said sample light detector mounted in a sample detector housing that sets said sample light detector at an angle that is not perpendicular to said sample beam; and
a detector circuit receiving a reference current from said reference light detector and a sample current from said sample light detector and producing an output indicating a difference between said sample beam and said reference beam. - View Dependent Claims (28, 29, 30, 31)
light traps in each of said sample detector housing and said reference detector housing to trap light reflected from said sample detector and said reference detector, respectively.
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29. The spectrophotometer according to claim 27, wherein said housing comprises a solid unitary metal housing having a hollowed portion shaped to provide for mounting and placement of said reference cell, said sample cell, said optical system, said reference light detector, and said sample light detector.
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30. The spectrophotometer according to claim 29, further comprising slots in said solid unitary metal housing for holding components of said optical system.
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31. The spectrophotometer according to claim 30, wherein said solid unitary metal housing comprises Aluminum.
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32. A spectrophotometer comprising:
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a housing;
a reference cell mounted in said housing;
a sample cell mounted in said housing;
an optical system within the housing to split a light beam into reference and sample beams and deliver reference and sample beams respectively along one path passing through the reference cell and another path through said sample cell;
a reference light detector for detecting light passing through the reference cell;
a sample light detector for detecting light passing through the sample cell;
whereinsaid sample cell comprises a liquid sample cell having a filtered liquid inlet;
a liquid outlet;
a drain controlling said liquid outlet a filtered vent to maintain pressure equilibrium;
sample beam exit and entrance ports;
an interaction region; and
sealed windows permitting said sample beam to pass through liquid in said interaction region. - View Dependent Claims (33, 34)
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35. A spectrophotometer, comprising:
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a substantially solid thermal conductive housing;
a hollow portion in said housing defining light communication paths and component locations;
a light entry aperture in optical communication with said hollow portion;
a collimating lens in optical communication with said light entry aperture;
a first beam splitter in optical communication with said collimating lens;
a second beam splitter in optical communication with a transmissive side of said first beam splitter;
a third beam splitter in optical communication with a reflective side of said first beam splitter;
a reference cell and detection system in optical communication with one of said second and third beam splitters; and
a sample cell and detection system in optical communication with the other of said second and third beam splitters. - View Dependent Claims (36, 37, 38)
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Specification
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Current AssigneeCurators of the University of Missouri (University of Missouri)
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Original AssigneeCurators of the University of Missouri (University of Missouri)
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InventorsLarsen, David W., Xu, Zhi, Garver, Wayne
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Primary Examiner(s)Evans, F. L.
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Assistant Examiner(s)GEISEL, KARA E
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Application NumberUS10/135,854Publication NumberTime in Patent Office757 DaysField of Search356/319, 356/244US Class Current356/319CPC Class CodesG01J 3/02 DetailsG01J 3/0224 using polarising or depolar...G01J 3/0286 Constructional arrangements...G01J 3/0291 Housings; Spectrometer acce...G01J 3/28 Investigating the spectrum ...G01J 3/42 Absorption spectrometry; Do...
