Diamond nitrogen vacancy sensor with circuitry on diamond
First Claim
Patent Images
1. A magnetic sensor assembly, comprising:
- a base substrate; and
a diamond assembly, formed on the base substrate, and comprising;
an assembly substrate;
nitrogen vacancy (NV) diamond material comprising a plurality of NV centers, and formed on the assembly substrate; and
a radio frequency (RF) excitation source formed on the NV diamond material, wherein the RF excitation source has a spiral shape.
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Abstract
A magnetic sensor assembly includes a base substrate and a material assembly. The material assembly is formed on the base substrate. The material assembly includes an assembly substrate. A magneto-optical defect center material having a plurality of magneto-optical defect centers is formed on the assembly substrate. A radio frequency (RF) excitation source is formed on the magneto-optical defect center material.
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Citations
44 Claims
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1. A magnetic sensor assembly, comprising:
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a base substrate; and a diamond assembly, formed on the base substrate, and comprising; an assembly substrate; nitrogen vacancy (NV) diamond material comprising a plurality of NV centers, and formed on the assembly substrate; and a radio frequency (RF) excitation source formed on the NV diamond material, wherein the RF excitation source has a spiral shape. - View Dependent Claims (2, 3, 4, 5)
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6. A magnetic sensor assembly, comprising:
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a base substrate; and a diamond assembly, formed on the base substrate, and comprising; an assembly substrate; nitrogen vacancy (NV) diamond material comprising a plurality of NV centers, and formed on the assembly substrate; and a radio frequency (RF) excitation source formed on the NV diamond material. - View Dependent Claims (7, 8, 9, 10, 11)
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12. A magnetic sensor assembly, comprising:
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a base substrate; and a material assembly, formed on the base substrate, and comprising; an assembly substrate; magneto-optical defect center material comprising a plurality of magneto-optical defect centers, and formed on the assembly substrate; and a radio frequency (RF) excitation source formed on the magneto-optical defect center material.
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13. A magnetic sensor assembly, comprising:
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a base substrate; and a diamond assembly, formed on the base substrate, and comprising; an assembly substrate; nitrogen vacancy (NV) diamond material comprising a plurality of NV centers, and formed on the assembly substrate; and an electromagnetic excitation source formed on the NV diamond material or on the assembly substrate; and power/logic circuits formed on the base substrate and electrically connected to the electromagnetic excitation source to provide control of the electromagnetic excitation source. - View Dependent Claims (14, 15, 16, 17, 18)
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19. A magnetic sensor assembly, comprising:
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a base substrate; and a diamond assembly, formed on the base substrate, and comprising; an assembly substrate; nitrogen vacancy (NV) diamond material comprising a plurality of NV centers, and formed on the assembly substrate; and an optical excitation source formed on the NV diamond material. - View Dependent Claims (20)
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21. A magnetic sensor assembly, comprising:
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a base substrate; and a diamond assembly, formed on the base substrate, and comprising; an assembly substrate; nitrogen vacancy (NV) diamond material comprising a plurality of NV centers, and formed on the assembly substrate; and an optical detector formed on the assembly substrate. - View Dependent Claims (22, 23)
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24. A magnetic sensor assembly, comprising:
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a base substrate; and a diamond assembly, formed on the base substrate, and comprising; an assembly substrate; nitrogen vacancy (NV) diamond material comprising a plurality of NV centers, and formed on the assembly substrate; an optical excitation source formed on the assembly substrate; and an optical detector formed on the assembly substrate. - View Dependent Claims (25, 26)
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27. A magnetic sensor assembly, comprising:
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a base substrate; and a material assembly, formed on the base substrate, and comprising; an assembly substrate; magneto-optical defect center material comprising a plurality of magneto-optical defect centers, and formed on the assembly substrate; an optical excitation source formed on the assembly substrate; and an optical detector formed on the assembly substrate.
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28. A magnetic sensor assembly, comprising:
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a base substrate; and a diamond assembly, formed on the base substrate, and comprising; an assembly substrate; nitrogen vacancy (NV) diamond material comprising a plurality of NV centers, and formed on the assembly substrate; a plurality of optical excitation sources formed on the assembly substrate; and a plurality of optical detectors formed on the assembly substrate. - View Dependent Claims (29, 30, 31, 32)
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33. A magnetic sensor assembly, comprising:
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a base substrate; and a diamond assembly, formed on the base substrate, and comprising; an assembly substrate; nitrogen vacancy (NV) diamond material comprising a plurality of NV centers, and formed on the assembly substrate; and a plurality of optical excitation sources formed on a top surface of the assembly substrate, wherein the assembly substrate has a plurality of connection pads on a bottom surface of the assembly substrate contacting corresponding conducting through connections extending through the assembly substrate and electrically connected to plurality of the optical excitation sources. - View Dependent Claims (34)
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35. A method of forming a magnetic sensor assembly comprising:
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forming a base substrate; forming an assembly substrate on base substrate; forming a nitrogen vacancy (NV) diamond material comprising a plurality of NV centers on the assembly substrate; and forming a radio frequency (RF) excitation source on the NV diamond material. - View Dependent Claims (36, 37, 38)
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39. A method of forming a magnetic sensor assembly comprising:
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forming a base substrate; forming an assembly substrate on base substrate; forming a plurality of optical excitation sources on the assembly substrate; and forming a nitrogen vacancy (NV) diamond material comprising a plurality of NV centers on the assembly substrate.
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40. A magnetic sensor assembly, comprising:
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a base substrate; and a material assembly, formed on the base substrate, and comprising; an assembly substrate; magneto-optical defect center material comprising a plurality of magneto-optical defect centers, and formed on the assembly substrate; and a radio frequency (RF) means, for providing an RF field, formed on the magneto-optical defect center material.
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41. A magnetic sensor assembly, comprising:
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a base substrate; and a material assembly, formed on the base substrate, and comprising; an assembly substrate; magneto-optical defect center material comprising a plurality of magneto-optical defect centers, and formed on the assembly substrate; an optical excitation means, for providing optical excitation, formed on the assembly substrate; and a detector means, for detecting optical radiation, formed on the assembly substrate.
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42. A magnetic sensor assembly, comprising:
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a base substrate; and a diamond assembly, formed on the base substrate, and comprising; an assembly substrate; magneto-optical defect center material comprising a plurality of magneto-optical defect centers, and formed on the assembly substrate; and an optical excitation source formed on the magneto-optical defect center material.
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43. A magnetic sensor assembly, comprising:
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a base substrate; and a diamond assembly, formed on the base substrate, and comprising; an assembly substrate; magneto-optical defect center material comprising a plurality of magneto-optical defect centers, and formed on the assembly substrate; and an optical detector formed on the assembly substrate.
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44. A method of forming a magnetic sensor assembly comprising:
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forming a base substrate; forming an assembly substrate on base substrate; forming a magneto-optical defect center material comprising a plurality of magneto-optical defect centers on the assembly substrate; and forming a radio frequency (RF) excitation source on the magneto-optical defect center material.
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Specification