Shielding device for improving dynamic range of electromagnetic measurements

What is claimed is: 1. A device for obtaining electromagnetic measurements in a wellbore comprising: an electromagnetic source carried by the device; and a metamaterial wrapped around the device to divert electromagnetic waves from the electromagnetic source around the device; wherein the device is a well logging tool or a longitudinal section of wellbore casing and the electromagnetic source is a coil antenna positioned circumferentially around the device; and wherein the metamaterial is wrapped around a portion of the device that causes diversion of the electromagnetic waves to thereby reduce distortion of the electromagnetic waves caused by the device. 2. A device for obtaining electromagnetic measurements in a wellbore according to claim 1 , wherein the metamaterial comprises a plurality of unit cells including split ring resonators. 3. A device for obtaining electromagnetic measurements in a wellbore according to claim 1 , wherein the metamaterial comprises a plurality of unit cells including electric-LC resonators or thin wires. 4. A device for obtaining electromagnetic measurements in a wellbore according to claim 1 , wherein the metamaterial comprises an electric layer which influences the electric field of the electromagnetic signal using a plurality of electric-LC resonators or thin wires, and a magnetic layer which influences the magnetic field of the electromagnetic signal using a plurality of split ring resonators. 5. A device for obtaining electromagnetic measurements in a wellbore according to claim 1 , wherein the metamaterial comprises a chiral material. 6. A device for obtaining electromagnetic measurements in a wellbore according to claim 1 , wherein the metamaterial has substantially the same intrinsic impedance as the background material of the device. 7. A device for obtaining electromagnetic measurements in a wellbore according to claim 1 , wherein the metamaterial has a negative index of refraction. 8. A method for making electromagnetic measurements in a wellbore, the method comprising: positioning a device in the wellbore, the device having an electromagnetic source carried by the device and a metamaterial wrapped around the device to divert electromagnetic waves from the electromagnetic source around the device; transmitting an electromagnetic signal from the electromagnetic source into a portion of the subterranean formation adjacent to the device; and receiving an electromagnetic signal containing information about the electromagnetic properties of the formation; wherein the device is a well logging tool or a longitudinal section of wellbore casing and the electromagnetic source is a coil antenna positioned circumferentially around the device; and wherein the metamaterial is wrapped around a portion of the device that causes diversion of the electromagnetic signal to thereby reduce distortion of the electromagnetic signal caused by the device. 9. A method for making electromagnetic measurements in a wellbore according to claim 8 , wherein the metamaterial has a negative index of refraction. 10. A method for making electromagnetic measurements in a wellbore according to claim 8 , wherein the metamaterial comprises a plurality of unit cells including split ring resonators. 11. A method for making electromagnetic measurements in a wellbore according to claim 8 , wherein the metamaterial comprises a plurality of unit cells including electric-LC resonators or thin wires. 12. A method for making electromagnetic measurements in a wellbore according to claim 8 , wherein the metamaterial comprises an electric layer which influences the electric field of the electromagnetic signal using a plurality of electric-LC resonators or thin wires, and a magnetic layer which influences the magnetic field of the electromagnetic signal using a plurality of split ring resonators. 13. A method for making electromagnetic measurements in a wellbore according to claim 8 , wherein the metamaterial comprises a chiral material. 14. A method for making electromagnetic measurements in a wellbore according to claim 8 , wherein the metamaterial has substantially the same intrinsic impedance as the background material of the device.