Remote field testing using a permeable core

What is claimed is: 1. An apparatus for measuring material thickness of one or more casings comprising: a transmission winding configured to generate a magnetic field; one or more receivers configured to detect changes in the magnetic field; a permeable core disposed within the transmission winding and configured to boost the magnetic field; and a monitor winding disposed around the permeable core and configured to measure a normalization voltage based at least in part on a strength of the magnetic field at the monitor winding, wherein the normalization voltage is configured to enable compensation for magnetic field distortion due to the permeable core, wherein the apparatus measures a standardized impedance value, at the one or more receivers, corresponding to the changes in the magnetic field and determines a normalized impedance using the following equation: Z NTM = Z N T M where Z NTM is the normalized impedance and T M is the normalization voltage and Z N is the standardized impedance value. 2. The apparatus of claim 1 , wherein the permeability factor, μ, of the permeable core is between approximately 300 and 20,000. 3. The apparatus of claim 1 , wherein the transmission winding generates the magnetic field using a signal having a frequency between 0.5 Hz and 100 Hz. 4. The apparatus of claim 2 , wherein each of the one or more receivers comprises a coil configured to convert magnetic field signals to electrical signals. 5. The apparatus of claim 1 , wherein the one or more casings comprise nested tubular casings. 6. The apparatus of claim 1 , wherein the apparatus has an outside diameter of less than 2 inches. 7. A method for measuring material thickness of one or more casings comprising: generating a magnetic field with a transmission winding having a permeable core disposed within the transmission winding and configured to boost the magnetic field; detect changes in the magnetic field with one or more receivers and measure a standardized impedance value, at the one or more receivers, corresponding to the changes in the magnetic field; measuring at a monitor winding disposed around the permeable core, a normalization voltage based at least in part on a strength of the magnetic field at the monitor winding, wherein the normalization voltage is configured to enable compensation for magnetic field distortion due to the permeable core; and determining a normalized impedance using the following equation: Z NTM = Z N T M where Z NTM is the normalized impedance and T M is the normalization voltage and Zn is the standardized impedance value.