Fiber optic system for electromagnetic surveying
First Claim
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1. An electromagnetic survey sensing device, comprising:
- at least two electrodes disposed at spaced apart locations;
an electrical to optical converter electrically coupled to the at least two electrodes, the electrical to optical converter configured to change a property of light from a source in response to voltage imparted across the at least two electrodes;
an optical fiber optically coupled to an output of the electrical to optical converter, the optical fiber in optical communication with a detector,wherein the electrical to optical converter comprises a means for changing an optical path length in response to the voltage imparted across the at least two electrodes, andwherein the means for changing the optical path length comprises a first piezoelectric element electrically coupled to the at least two electrodes, a first mirror functionally associated with the first piezoelectric element and disposed proximate a first end of an optical path associated with the optical fiber, such that electrical actuation of the first piezoelectric element by the voltage causes corresponding change in distance between the end of the first optical path and the first mirror;
a second piezoelectric element electrically coupled to the at least two electrodes; and
a second mirror functionally associated with the second piezoelectric element and disposed proximate a second end of the optical path associated with the optical fiber, such that electrical actuation of the second piezoelectric element by the voltage causes corresponding change in distance between the end of the second optical path and the second mirror opposite to the change in distance between the end of the first path and the first mirror.
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Abstract
An electromagnetic survey sensing device includes at least two electrodes disposed at spaced apart locations. An electrical to optical converter is electrically coupled to the at least two electrodes. The converter is configured to change a property of light from a source in response to voltage imparted across the at least two electrodes. The device includes an optical fiber optically coupled to an output of the electrical to optical converter, the optical fiber in optical communication with a detector.
60 Citations
4 Claims
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1. An electromagnetic survey sensing device, comprising:
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at least two electrodes disposed at spaced apart locations; an electrical to optical converter electrically coupled to the at least two electrodes, the electrical to optical converter configured to change a property of light from a source in response to voltage imparted across the at least two electrodes; an optical fiber optically coupled to an output of the electrical to optical converter, the optical fiber in optical communication with a detector, wherein the electrical to optical converter comprises a means for changing an optical path length in response to the voltage imparted across the at least two electrodes, and wherein the means for changing the optical path length comprises a first piezoelectric element electrically coupled to the at least two electrodes, a first mirror functionally associated with the first piezoelectric element and disposed proximate a first end of an optical path associated with the optical fiber, such that electrical actuation of the first piezoelectric element by the voltage causes corresponding change in distance between the end of the first optical path and the first mirror; a second piezoelectric element electrically coupled to the at least two electrodes; and a second mirror functionally associated with the second piezoelectric element and disposed proximate a second end of the optical path associated with the optical fiber, such that electrical actuation of the second piezoelectric element by the voltage causes corresponding change in distance between the end of the second optical path and the second mirror opposite to the change in distance between the end of the first path and the first mirror.
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2. An electromagnetic survey system, comprising:
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a receiver cable having an optical fiber associated therewith and coupled at one end to a recording device and at another end to at least one electrical to optical converter, the recording device including a light source and a photodetector therein in optical communication with the associated fiber; at least two electrodes disposed at spaced apart locations along the receiver cable; the electrical to optical converter electrically coupled to the at least two electrodes, the electrical to optical converter configured to change a property of light from the source in response to voltage imparted across the at least two electrodes; the optical fiber optically coupled to an output of the electrical to optical converter, the optical fiber in optical communication with the detector in the recording device, wherein the at least one electrical to optical converter comprises a means for changing an optical path length in response to the voltage imparted across the at least two electrodes, and wherein the means for changing the optical path length comprises a first piezoelectric element electrically coupled to the at least two electrodes, a first mirror functionally associated with the first piezoelectric element and disposed proximate a first end of an optical path associated with the optical fiber, such that electrical actuation of the first piezoelectric element by the voltage causes corresponding change in distance between the end of the first optical path and the first mirror; a second piezoelectric element electrically coupled to the at least two electrodes; and a second mirror functionally associated with the second piezoelectric element and disposed proximate a second end of the optical path associated with the optical fiber, such that electrical actuation of the second piezoelectric element by the voltage causes corresponding change in distance between the end of the second optical path and the second mirror opposite to the change in distance between the end of the first path and the first mirror. - View Dependent Claims (3)
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4. A method for sensing an electromagnetic field, comprising:
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exposing an electric dipole antenna to the electromagnetic field; conducting voltage imparted to the antenna to an electrical to a device that changes a property of light imparted thereto in response to the voltage; and changing a property of light conducted from a light source to the device and from the device to a photodetector along an optical fiber, so that a signal corresponding to the voltage is optically communicated to the photodetector, wherein the changing the property of light comprises causing a phase change therein by changing a length of an optical path between the light source and the photodetector, wherein the changing the optical path length comprises; moving a first mirror by one of (i) changing a dimension of a first piezoelectric element, and (ii) actuating a first piezoelectric element; and moving a second mirror in the opposite direction of the motion of the first mirror by one of (i) changing a dimension of a second piezoelectric element, and (ii) actuating a second piezoelectric element, and wherein each piezoelectric element is configured to change shape in response to voltage applied thereto from the antenna.
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Specification
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Current AssigneePGS Geophysical As (PGS ASA)
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Original AssigneePGS Geophysical As (PGS ASA)
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InventorsTenghamn, Stig Rune Lennart, Maas, Steven J.
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Primary Examiner(s)WHITTINGTON, KENNETH
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Application NumberUS12/807,010Publication NumberTime in Patent Office411 DaysField of Search324/96, 324/97, 324/347, 324/348, 324/354, 324/357, 324/365US Class Current324/365CPC Class CodesG01R 33/0327 with application of magneto...G01V 2003/085 ReceiversG01V 3/083 Controlled source electroma...G01V 3/12 operating with electromagne...
