Optical fiber for magnetostrictive responsive detection of magnetic fields
First Claim
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1. An optical fiber comprising:
- a light transmission means for transmission of light therethrough, anda magnetostrictive means magnetostrictively responsive to a magnetic field circumpositionally and superjacently covering the light transmission means about the cross-section of the light transmission means and along a length of the light transmission means for changing the optical path length of the light transmission means along the length of the light transmission means in response to the magnetic field.
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Accused Products
Abstract
An optical fiber cable and magnetic field detector magnetostrictively reave to the presence of an external magnetic field is presented, and methods thereof. The optical fiber cable comprises a elongated optically transparent core sheathed by a magnetostrictively responsive jacket disposed about the periphery of the core. The jacket responds to magnetic fields present and strains the core effecting the light transmission of the core. The effect upon the light transmission by the jacket is detected by interferometry for determining the presence of the magnetic field.
71 Citations
18 Claims
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1. An optical fiber comprising:
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a light transmission means for transmission of light therethrough, and a magnetostrictive means magnetostrictively responsive to a magnetic field circumpositionally and superjacently covering the light transmission means about the cross-section of the light transmission means and along a length of the light transmission means for changing the optical path length of the light transmission means along the length of the light transmission means in response to the magnetic field. - View Dependent Claims (3, 4, 5, 6, 10, 11)
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2. An optical fiber comprising:
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a light transmission means for transmission of light therethrough, the transmission of the light being effectable by strain, and a magnetostrictive means magnetostrictively responsive to a magnetic field circumpositionally and superjacently covering the light transmission means about the cross-section of the light transmission means and along a length of the light transmission means for changing the optical path length of the light transmission means along the physical length of the light transmission means in response to the magnetic field.
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7. A detector for detecting the presence of a magnetic field comprising:
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a light transmission means for transmission of light therethrough, a magnetostrictive means magnetostrictively responsive to a magnetic field circumpositionally and superjacently covering the light transmission means about the cross-section of the light transmission means and along a length of the light transmission means for changing the optical path length of the light transmission means along the physical length of the light transmission means in response to the magnetic field, and a means sensitive to the effect upon the light transmission of the light transmission means in response to the magnetic field for determining the presence of the magnetic field. - View Dependent Claims (8, 9)
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12. A method for detecting the presence of a magnetic field comprising the steps of:
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providing a first optical fiber having a first light transmission means, and a magnetostrictive means magnetostrictively responsive to a magnetic field circumpositionally and superjacently covering the first light transmission means about the cross-section of the first light transmission means and along a length of the first light transmission means for changing the optical path length of the light transmission means along the physical length of the first light transmission means in response to the magnetic field, providing a second optical fiber having a second light transmission means, transmitting light through the first and the second light transmission means, and comparing of the light transmission of the first light transmission means with the light transmission of the second light transmission means during exposure of the first optical fiber to the magnetic field, a difference between the light transmission of the first light transmission means and the second light transmission means due to exposure of the first optical fiber to the magnetic field comprising a detecting of the presence of the magnetic field.
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13. A detector for detecting the presence of a magnetic field comprising:
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a light transmission means for conducting light therethrough, magnetostrictive means magnetostrictively responsive to the magnetic field circumpositionally and superjacently covering the light transmission means about the cross-section of the light transmission means and along a length of the light transmission means for changing the optical path length of the light transmission means along the physical length of the light transmission means in response to the magnetic field, a means sensitive to the effect on the light transmission of the light transmission means in response to the applied magnetic field for determining the presence of the magnetic field, and sensitivity adjusting means comprising a bias magnetic field magnetically coupled to the magnetostrictive means for controllably adjusting the sensitivity of the magnetostrictive means to the magnetic field. - View Dependent Claims (14)
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15. A method of controllably adjusting the sensitivity of a magnetic field detector comprising the steps of:
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providing the magnetic field detector having a magnetostrictive means magnetostrictively responsive to the magnetic field circumpositionally and superjacently covering a light transmission means about the cross-section of the light transmission means and along a length of the light transmission means for changing the optical path length of the light transmission means along the physical length of the light transmission means in response to the magnetic field, providing a bias magnetic field coupled to the magnetostrictive means for biasing the magnetostrictive means to a desired magnetostrictively responsive sensitivity, and adjusting the bias magnetic field to achieve the desired sensitivity.
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16. An apparatus for measurement of a magnetic field comprising:
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a light transmission means for transmission of light therethrough, a magnetostrictive means magnetostrictively responsive to the magnetic field circumpositionally and superjacently covering the light transmission means about the cross-section of the light transmission means and along a length of the light transmission means for changing the optical path length of the light transmission means along the physical length of the light transmission means in response to the magnetic field, and a means quantitatively sensitive to the effect on the light transmission of the light transmission means in response to the magnetic field for quantitatively measuring the magnetic field.
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17. An apparatus for measurement of a magnetic field comprising:
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a light transmission means for conducting light therethrough, magnetostrictive means magnetostrictively responsive to the magnetic field circumpositionally and superjacently covering the light transmission means about the cross-section of the light transmission means and along a length of the light transmission means for changing the optical path length of the light transmission means along the physical length of the light transmission means in response to the magnetic field, means sensitive to the effect on the light transmission of the light transmission means in response to the magnetic field for measuring the magnetic field, and sensitivity adjusting means comprising a bias magnetic field magnetically coupled to the magnetostrictive means for controllably adjusting the sensitivity of the response of the magnetostrictive means to the magnetic field.
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18. A method of controllably adjusting the sensitivity of a magnetic field measurement device comprising the steps of:
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providing the magnetic field measuring device having a magnetostrictive means magnetostrictively responsive to the magnetic field circumpositionally and superjacently covering a light transmission means about the cross-section of the light transmission means and along a length of the light transmission means for changing the optical path length of the light transmission means along the physical length of the light transmission means in response to the magnetic field, and having a means quantitatively sensitive to the effect on the light transmission of the light transmission means in response to the magnetic field for quantitatively measuring the magnetic field, providing a bias magnetic field coupled to the magnetostrictive means for biasing the magnetostrictive means to a desired magnetostrictively responsive sensitivity, and adjusting the bias magnetic field to achieve the desired sensitivity.
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Specification