Magnetometer and method of fabrication

The invention claimed is: 1. An optical magnetometer comprising: an optical resonator having a central void; and a magnetostrictive material located in the central void such that a change in dimension of the magnetostrictive material causes a change in mechanical modes of the optical resonator due to the magnetorestrictive material expanding or contracting radially with respect to an inner surface of the optical resonator immediately adjacent to the central void. 2. The optical magnetometer of claim 1 wherein the optical resonator is a circular or elliptical whispering gallery mode resonator where the light circulates by grazing incidence total internal reflection around the perimeter of the resonator. 3. The optical magnetometer of claim 1 wherein the optical resonator has a diameter in the range of 5 microns to 30 millimeters. 4. The optical magnetometer of claim 1 wherein the optical resonator has a diameter in the range of 60 microns to 16 millimeters. 5. The optical magnetometer of claim 1 wherein the optical resonator is a microtoroid. 6. The optical magnetometer of claim 1 wherein the optical resonator is a substantially rectangular resonator where light circulates by reflection from dielectric coatings on the surface of the resonator. 7. The optical magnetometer of claim 1 wherein the magnetostrictive material is selected from Terfenol-D (an alloy of terbium, dysprosium and iron), Galfenol (an alloy of iron and gallium), Metglas (a proprietary iron based amorphous alloy available from Metglas Inc), and Ferrite (doped crystalline iron). 8. An optical magnetometer comprising: an optical resonator having optical modes and mechanical modes, the optical resonator having a central void; a tunable laser producing optical radiation at a laser frequency locked to an optical mode frequency of the optical resonator and coupled into the optical resonator; a magnetostrictive material located in the central void such that a change in dimension of the magnetostrictive material causes a change in mechanical modes of the optical resonator due to the magnetorestrictive material expanding or contracting radially with respect to an inner surface of the optical resonator immediately adjacent to the central void; and an optical detector that detects changes in the optical radiation due to changes in the mechanical modes.