Claims
- 1. A magnetoelastic magnetometer, comprising:
- a magnetoelastic member for placement in a magnetic field;
- electromechanical means, proximate to said member, for measuring a change in the modulus of elasticity of said magnetoelastic member caused by the magnetic field; and
- means responsive to said means for measuring for determining the magnitude of the magnetic field.
- 2. The magnetoelastic magnetometer of claim 1 further including means for vibrating said magnetoelastic member.
- 3. The magnetoelastic magnetometer of claim 2 in which said means for measuring includes means for resolving the magnetoelastic member vibration frequency.
- 4. The magnetoelastic magnetometer of claim 3 in which said means for determining includes means for inferring the magnetic field amplitude from the vibration frequency.
- 5. The magnetoelastic magnetometer of claim 2 in which said means for vibrating vibrates said magnetoelastic member at its resonant frequency.
- 6. The magnetoelastic magnetometer of claim 1 in which said magnetoelastic member is a magnetoelastic cantilever member supported on one end thereof by support means.
- 7. The magnetoelastic magnetometer of claim 6 further including means for vibrating said magnetoelastic cantilever member at its resonant frequency.
- 8. The magnetoelastic magnetometer of claim 7 in which said means for vibrating includes an electrostatic actuator for vibrating said magnetoelastic cantilever member.
- 9. The magnetoelastic magnetometer of claim 7 in which said means for measuring an effect on the elasticity of said magnetoelastic cantilever member includes means for resolving the magnetoelastic cantilever member resonant vibration frequency.
- 10. The magnetoelastic magnetometer of claim 9 in which said means for resolving includes a second cantilever mounted parallel to said first cantilever member.
- 11. The magnetoelastic magnetometer of claim 10 in which said means for resolving further includes means for vibrating said cantilever follower member at the resonant vibration frequency of the magnetoelastic cantilever member to maintain an essentially constant distance between said magnetoelastic cantilever member and said cantilever follower member.
- 12. The magnetoelastic magnetometer of claim 11 in which said means for resolving further includes means for determining said magnetoelastic cantilever member vibration frequency.
- 13. The magnetoelastic magnetometer of claim 12 further including means for measuring the distance between said magnetoelastic cantilever member and said cantilever follower member.
- 14. The magnetoelastic magnetometer of claim 11 further including means for maintaining a constant phase relationship between said magnetoelastic cantilever member vibration frequency and said cantilever follower member vibration frequency.
- 15. The magnetoelastic magnetometer of claim 6 further including a flux guide for directing the magnetic field through said magnetoelastic cantilever.
- 16. The magnetoelastic magnetometer of claim 15 in which said flux guide includes a fixed magnetoelastic member proximate said magnetoelastic cantilever member, said fixed magnetoelastic member supported by said support means.
- 17. The magnetoelastic magnetometer of claim 16 in which said magnetoelastic cantilever member is a beam and said flux guide is aligned with and has the same width as said beam.
- 18. The magnetoelastic magnetometer of claim 1 further including means for magnetically biasing said magnetoelastic member to increase its magnetoelastic sensitivity to the magnetic field.
- 19. The magnetoelastic magnetometer of claim 18 in which said means for biasing includes one or more permanent magnets.
- 20. The magnetoelastic magnetometer of claim 6 in which said means for measuring an effect includes means for measuring the sag of said cantilever.
- 21. The magnetoelastic magnetometer of claim 20 further including means for applying an urging force to the free end of said cantilever for increasing the magnitude of the cantilever sag.
- 22. A magnetoelastic magnetometer, comprising:
- a magnetoelastic cantilever member for placement in a magnetic field;
- means for vibrating said magnetoelastic cantilever member at its resonant frequency;
- a second cantilever member;
- means for measuring the distance between said magnetoelastic cantilever member and said following cantilever member;
- means for vibrating said following cantilever member to maintain a constant distance between said magnetoelastic cantilever member and said following cantilever member and to maintain a constant phase relationship between the cantilever vibrations; and
- means responsive to the resonant frequency of said magnetoelastic cantilever member, for resolving magnitude of the magnetic field.
- 23. A magnetoelastic magnetometer comprising:
- a magnetoelastic cantilever member for placement in a magnetic field;
- means for vibrating said magnetoelastic cantilever member at its resonant frequency; and
- means responsive to the resonant frequency of the magnetoelastic cantilever member for resolving the magnitude of the magnetic field.
GOVERNMENT RIGHTS
This invention was made with U.S. Government support under Contract No. N00014-91-C-0070, awarded by the Department of the Navy. The Government has certain rights in the invention.
US Referenced Citations (8)
Non-Patent Literature Citations (3)
Entry |
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Brizzolara et al; A Tunneling-tip Magnetometer, Sensors and Actuators, 20 (1989) pp. 199-205. |