Superconducting biomagnetometer with remote pickup coil
First Claim
1. A biomagnetometer, comprising:
- magnetic pickup coil formed of a material having a superconducting transition temperature of greater than 77K, the pickup coil being adapted for picking up magnetic fields;
a first container that contains the pickup coil, the first container maintaining the pickup coil at a temperature at which it is superconducting;
a detector formed of a material that is superconducting at a temperature less than its superconducting transition temperature, the detector being adapted to detect small electrical currents;
a second container that contains the detector, the second container maintaining the detector at a temperature at which it is superconducting and being physically remote from the first container; and
a cable extending from the pickup coil in the first container to the detector in the second container, the cable includingan electrical conductor connected at one end to the pickup coil and at the other end to the detector and being adapted to convey electrical signals from the pickup coil to the detector, the conductor being formed, for at least a portion of its length, of a material having a superconducting transition temperature of greater than 77K,a third container that encloses the electrical conductor and extends from the first container to the second container, the first, second, and third containers together enclosing and maintaining the pickup coil, the detector, and the cable at a temperature at which each is superconducting.
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0 Petitions
Accused Products
Abstract
A biomagnetometer has a magnetic pickup coil positioned remotely from the detector. The detector is made from a low-temperature superconductor, while the pickup coil and an electrical connector between the detector and the pickup coil are made of a high-temperature superconductor. Although the detector is maintained in a dewar at a sufficiently low temperature to reduce electronic noise, the pickup coil and the electrical connector need only be maintained at a temperature at which they are superconducting. In one approach, the detector is maintained at liquid helium temperature, and the pickup coil and electrical connector are cooled by liquid nitrogen. The resulting biomagnetometer permits the pickup coil to be moved and positioned easily, and to be changed readily.
50 Citations
20 Claims
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1. A biomagnetometer, comprising:
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magnetic pickup coil formed of a material having a superconducting transition temperature of greater than 77K, the pickup coil being adapted for picking up magnetic fields; a first container that contains the pickup coil, the first container maintaining the pickup coil at a temperature at which it is superconducting; a detector formed of a material that is superconducting at a temperature less than its superconducting transition temperature, the detector being adapted to detect small electrical currents; a second container that contains the detector, the second container maintaining the detector at a temperature at which it is superconducting and being physically remote from the first container; and a cable extending from the pickup coil in the first container to the detector in the second container, the cable including an electrical conductor connected at one end to the pickup coil and at the other end to the detector and being adapted to convey electrical signals from the pickup coil to the detector, the conductor being formed, for at least a portion of its length, of a material having a superconducting transition temperature of greater than 77K, a third container that encloses the electrical conductor and extends from the first container to the second container, the first, second, and third containers together enclosing and maintaining the pickup coil, the detector, and the cable at a temperature at which each is superconducting. - View Dependent Claims (2, 4, 5, 6, 7, 8, 9, 10, 11)
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3. The biomagnetometer of cliam 1, further including an inductively coupled electrical disconnect between the pickup coil and the detector.
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12. A biomagnetometer, comprising:
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a magnetic pickup coil formed of a material that is superconducting at a temperature less than its superconducting transition temperature, the pickup coil being adapted for picking up magnetic fields; a detector formed of a material that is superconducting at a temperature less than its superconducting transition temperature, the detector being adapted to detect small electrical currents, there being no container that encloses both the pickup coil and the detector; and an electrical conductor connected at one end to the pickup coil and at the other end to the detector and being adapted to convey electrical signals from the pickup coil to the detector, the conductor being formed, for at least a portion of its length, of a matering having a superconducting transition temperature of greater than the boiling point of liquid nitrogen. - View Dependent Claims (13, 14, 15, 16, 17, 18)
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19. A biomagnetometer, comprising:
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means for picking up a magnetic field and producing an electrical signal representative of the magnetic field, the means for picking up being operable when maintained at a temperature no greater than a first superconducting transition temperature; first container means for containing the means for picking up and maintaining the means for picking up at a temperature no greater than the first superconducting transition temperature; means for detecting a small electrical signal, the means for detecting being operable when maintained at a temperature no greater than a second superconducting transition temperature, the second superconducting transition temperature being no greater than the first superconducting transition temperature, the means for detecting being located outside of the first container means; second container means for containing the means for detecting and for maintaining the means for detecting at a temperature no greater than the second superconducting transition temperature; and means for transmitting the electrical signal from the means for picking up to the means for detecting without signal loss due to electrical resistance, and for permitting the first container means and the second container means to be physically separated from each other, the means for detecting thereby serving as a physically remote detector of the magnetic field sensed by the means for picking up. - View Dependent Claims (20)
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Specification