Method of measuring magnetic field gradients
First Claim
1. A method of measuring magnetic field gradients on a small spatial scale, comprising the steps of:
- providing lithographically fabricated first and second magnetic field sensors with lateral spatial scales of up to about 10 microns and with a separation of up to about 10 microns to thereby form a gradiometer;
introducing a source of local magnetic field to the proximity of the substrate;
applying a magnetic field across the sensors to produce in the first sensor a first electrical signal proportional to a first magnetic field strength of the magnetic field at the first sensor and in the second sensor a second electrical signal proportional to a second magnetic field strength of the magnetic field at the second sensor; and
comparing the first and second electrical signals to obtain an output representative of a magnitude of a magnetic field gradient across the sensors.
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Abstract
Magnetic field sensors, each generating an electrical output signal in proportion to the local magnetic field, are lithographically fabricated on a semiconductor substrate with a small spatial separation. The lateral dimension of the sensors and the separation length are the order of the minimum lithographic feature size. Comparing the electrical signals of the sensors results in a measurement of the local magnetic field gradient. Large field gradients, that vary on a small spatial scale, may be associated small magnetic structures such as microscopic magnetic particles. Detection of a field gradient can be used to infer the presence of a magnetic particle.
17 Citations
5 Claims
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1. A method of measuring magnetic field gradients on a small spatial scale, comprising the steps of:
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providing lithographically fabricated first and second magnetic field sensors with lateral spatial scales of up to about 10 microns and with a separation of up to about 10 microns to thereby form a gradiometer; introducing a source of local magnetic field to the proximity of the substrate;
applying a magnetic field across the sensors to produce in the first sensor a first electrical signal proportional to a first magnetic field strength of the magnetic field at the first sensor and in the second sensor a second electrical signal proportional to a second magnetic field strength of the magnetic field at the second sensor; andcomparing the first and second electrical signals to obtain an output representative of a magnitude of a magnetic field gradient across the sensors. - View Dependent Claims (2, 3, 4, 5)
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Specification