Cone penetrometer fiber optic raman spectroscopy probe assembly
First Claim
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1. A Raman spectroscopy probe for use in a cone penetrometer, comprising:
- a Raman spectroscopy optical assembly comprising first means for sending laser generated light into and receiving Raman light from a test area;
a housing for said Raman spectroscopy optical assembly; and
second means for operatively connecting said Raman spectroscopy optical assembly to the inner wall of a cone penetrometer, wherein said second means comprise a flange connected to said optical assembly, wherein said flange includes at least one through-hole, wherein said inner wall of said cone penetrometer includes an uphole lip, wherein said flange is connected to said uphole lip with screws placed through said through-holes of said flange into said uphole lip.
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Abstract
A chemically and mechanically robust optical Raman spectroscopy probe assembly that can be incorporated in a cone penetrometer (CPT) for subsurface deployment. This assembly consists of an optical Raman probe and a penetrometer compatible optical probe housing. The probe is intended for in-situ chemical analysis of chemical constituents in the surrounding environment. The probe is optically linked via fiber optics to the light source and the detection system at the surface. A built-in broadband light source provides a strobe method for direct measurement of sample optical density. A mechanically stable sapphire window is sealed directly into the side-wall of the housing using a metallic, chemically resistant, hermetic seal design. This window permits transmission of the interrogation light beam and the resultant signal. The spectroscopy probe assembly is capable of accepting Raman, Laser induced Fluorescence, reflectance, and other optical probes with collimated output for CPT deployment.
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Citations
17 Claims
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1. A Raman spectroscopy probe for use in a cone penetrometer, comprising:
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a Raman spectroscopy optical assembly comprising first means for sending laser generated light into and receiving Raman light from a test area; a housing for said Raman spectroscopy optical assembly; and second means for operatively connecting said Raman spectroscopy optical assembly to the inner wall of a cone penetrometer, wherein said second means comprise a flange connected to said optical assembly, wherein said flange includes at least one through-hole, wherein said inner wall of said cone penetrometer includes an uphole lip, wherein said flange is connected to said uphole lip with screws placed through said through-holes of said flange into said uphole lip. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. A Raman spectroscopy probe for use in a cone penetrometer, comprising:
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a Raman spectroscopy optical assembly comprising first means for sending laser generated light into and receiving Raman light from a test area, wherein said Raman spectroscopy optical assembly comprises a window assembly, said window assembly further comprising a hermetically sealed sapphire window; a housing for said Raman spectroscopy optical assembly, wherein said housing comprises hardened stainless steel for strength and corrosion resistance, wherein said housing is compatible with chemically challenging environments, wherein said housing has been pushed tested to at least 45 tons; and second means for operatively connecting said Raman spectroscopy optical assembly to the inner wall of a cone penetrometer, wherein said first means for sending laser generated light into and receiving Raman light from a test area comprise; an optical fiber for providing laser light along a first optical axis; a lens for producing collimated light from said laser light; a 0°
incidence dielectric bandpass filter to remove silica Raman signal from said collimated light to produce a pure laser line;a first 45°
incidence dielectric long pass filter for reflecting said pure laser line onto a second optical axis that is 90°
with respect to said first optical axis, wherein said first 45°
incidence dielectric long pass filter transmits any remaining Raman signal;a beam dump to receive said remaining Raman signal that is transmitted by said first 45°
incidence dielectric long pass filter;a second 45°
incidence dielectric long pass filter for reflecting light from said second optical axis onto a third optical axis that is 90°
with respect to said second optical axis;a second beam dump to receive said remaining Raman signal that is transmitted by said second 45°
incidence dielectric long pass filter;a gimbal mounted mirror for reflecting light from said third optical axis onto a fourth optical axis that is 90°
with respect to said third optical axis;wherein said sapphire window has an inner surface that is facing said gimbal mounted mirror, wherein light propagating on said fourth optical axis passes through said sapphire window and further propagates as test light into a test environment, wherein said test light interacts with said test environment to produce said Raman light, wherein some of said signal light is collected through said sapphire window and propagates along said fourth optical axis, is reflected by said gimbal mounted mirror onto said third optical axis and is transmitted through said second 45°
incidence dielectric long pass filter to produce collected signal light;a 0°
incidence dielectric long pass filter for rejection of scattered laser light propagating with said collected signal light to produce pure signal light;a second lens for focusing said pure signal light to produce focused pure signal light; and a fiber optic bundle for collecting said focused pure signal light. - View Dependent Claims (15)
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16. A Raman spectroscopy probe for use in a cone penetrometer, comprising:
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a Raman spectroscopy optical assembly comprising first means for sending laser generated light into and receiving Raman light from a test area, wherein said Raman spectroscopy optical assembly comprises a window assembly, said window assembly further comprising a hermetically sealed sapphire window; a housing for said Raman spectroscopy optical assembly, wherein said housing comprises hardened stainless steel for strength and corrosion resistance, wherein said housing is compatible with chemically challenging environments, wherein said housing has been pushed tested to at least 45 tons; and second means for operatively connecting said Raman spectroscopy optical assembly to the inner wall of a cone penetrometer, wherein said first means for sending laser generated light into and receiving Raman light from a test area comprise; an optical fiber for providing laser light along a first optical axis; a lens for producing collimated light from said laser light; a 0°
incidence dielectric bandpass filter to remove silica Raman signal from said collimated light to produce a pure laser line;a first 45°
incidence dielectric long pass filter for reflecting said pure laser line onto a second optical axis that is 90°
with respect to said first optical axis, wherein said first 45°
incidence dielectric long pass filter transmits any remaining Raman signal;a beam stop to receive said remaining Raman signal that is transmitted by said first 45°
incidence dielectric long pass filter;a second 45°
incidence dielectric long pass filter for reflecting light from said second optical axis onto a third optical axis that is 90°
with respect to said second optical axis;a second beam dump to receive said remaining Raman signal that is transmitted by said second 45°
incidence dielectric long pass filter;wherein light propagating on said third optical axis propagates through said sapphire window as test light into a test environment, wherein said test light interacts with said test environment to produce said Raman light, wherein some of said signal light is collected through said sapphire window and propagates along said third optical axis, is transmitted through said second 45°
incidence dielectric long pass filter to produce collected signal light;a 0°
incidence dielectric long pass filter for rejection of scattered light propagating with said collected signal light to produce pure signal light;a second lens for focusing said pure signal light to produce focused pure signal light; and a fiber optic bundle for collecting said focused pure signal light. - View Dependent Claims (17)
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Specification
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Current AssigneeLawrence Livermore National Security LLC (Government of the United States of America)
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Original AssigneeRegents of the University of California (University of California)
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InventorsBrown, Steven B., Kyle, Kevin R.
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Primary Examiner(s)HANTIS, KAREN
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Application NumberUS08/898,713Time in Patent Office917 DaysField of Search356/301, 356/36, 356/318-319, 356/440, 356/410, 356/417, 250/253-270, 250/269.1-269.8, 250/269, 250/458.1, 250/459.1, 250/461.1, 250/461.2US Class Current356/301CPC Class CodesG01J 3/02 DetailsG01J 3/021 using plane or convex mirro...G01J 3/0291 Housings; Spectrometer acce...G01J 3/44 Raman spectrometry; Scatter...G01N 2021/651 Cuvettes thereforeG01N 21/65 Raman scatteringG01N 21/658 enhancement Raman, e.g. sur...
