Pavement material microwave moisture-density measurement methods and apparatuses

What is claimed is: 1. A portable microwave material gauge for determining a quality property of a pavement material comprising: an electromagnetic field generator configured to generate at least one microwave frequency of an electric field mode that penetrates into a material, wherein the material includes a heterogeneous material including at least one of a pavement material and a soil material; a memory storing a calibration data set represented by a frequency domain response relationship of known physical properties of a material, wherein the frequency domain response is stored in memory of the portable microwave gauge; a sensor operative of the electric field mode, wherein the sensor is excited by the at least one microwave frequency and determines a permittivity response of the pavement material to the electric field as a function of a quality property of the material; and an analyzer configured to correlate the sensor permittivity response to the calibration data set wherein correlating the response includes using stored relationships between the material quality and the sensor response using calibration samples having changes in permittivity as a function of quality; wherein the quality property of the pavement material is related to at least one of density, modulus, and moisture content; wherein the frequency domain response is related to at least one of measured magnitude and phase of the sensor permittivity response as determined by the analyzer; and wherein the electromagnetic field generator is configured to generate: a single frequency at which the sensor permittivity response varies with compaction of the pavement material; or a range of frequencies by sweeping across a bandwidth in which the sensor permittivity response varies with density of the pavement material, wherein the sensor comprises at least one of a planar sensor, a leaky cavity sensor, a subsurface sensor, and a monopole. 2. The portable microwave gauge of claim 1 where the changes in permittivity are determined by a response of the sensor incorporating impedance, admittance, loss, phase shift, scattering parameters, reflection, transmission, VSWR, phase velocity, and combinations thereof. 3. The portable microwave gauge of claim 1 wherein the sensor response is of at least one or more frequency responses to characterize the quality property of the pavement material. 4. The portable microwave gauge of claim 1 wherein the electromagnetic field generator is configured to generate a field having at least one of a resonant mode and a non-resonant mode. 5. The portable microwave gauge of claim 1 wherein the electromagnetic field generator is configured to generate an electromagnetic field between 300 MHz and 10 GHz. 6. The portable microwave gauge of claim 1 wherein the electromagnetic field generator is configured to generate an electromagnetic field of 1 GHz. 7. The portable microwave gauge of claim 1 wherein the electromagnetic field generator is configured to generate an electromagnetic field of 2.5 GHz. 8. A portable microwave material gauge of claim 1 wherein the quality property is at least one of asphalt density and soil moisture. 9. A portable microwave material gauge of claim 1 wherein the quality property is a modulus property of concrete or asphalt. 10. A portable microwave material gauge of claim 1 wherein the analyzer is configured to correlate the changes in response to one of a volumetric property and a mechanistic property of the material. 11. The portable microwave material gauge of claim 1 wherein the analyzer corrects for the quality property of the material based on measured material temperature. 12. The portable microwave material gauge of claim 11 wherein the temperature correction is related to volumetric expansion of hot asphalt. 13. The portable microwave material gauge of claim 11 wherein the analyzer is configured to determine a corrected relative density of the material, moisture content of the material, or quality property of a concrete material. 14. The portable microwave material gauge of claim 1 wherein the analyzer is configured to receive a calibration data set of samples having changes in permittivity as a function of known quality properties of the material wherein the changes in permittivity determine the response of the sensor and the sensor response is measured using at least one of impedance, admittance, loss, phase shift, scattering parameters, reflection, transmission, VSWR, phase velocity, and combinations thereof. 15. The portable microwave material gauge of claim 1 , wherein the sensor is operating as at least as one of a one port or multi port device. 16. A method for determining a quality property of a pavement material comprising a portable microwave gauge including: generating an electromagnetic field producing at least one microwave frequency of an electric field mode that penetrates into a material wherein the material includes a heterogeneous mix including at least one of a pavement material, an aggregate material, and a soil material; incorporating a calibration data set represented by a frequency response relationship of known physical properties of a material, wherein the frequency response relationship is stored in memory of the portable microwave gauge as at least one of an equation or table; measuring using a sensor of size and shape to support the electric field mode, be excited by the at least one microwave frequency, and to determine a permittivity response of the pavement material to the electric field as a function of a quality property of the material; and correlating the sensor permittivity response to the calibration data set or relation wherein correlating the response includes using stored relationships between the material quality property and the sensor response using calibration samples having changes in permittivity as a function of quality, wherein the response is related to at least one of measured magnitude and phase of the sensor permittivity response as determined by an analyzer; wherein the sensor comprises at least one of a planar sensor, a leaky cavity sensor, a subsurface sensor, and a monopole; and wherein the electromagnetic field is generated: at a single frequency at which the sensor permittivity response varies with compaction of the pavement material; or across a range of frequencies by sweeping across a bandwidth in which the sensor permittivity response varies with density of the pavement material. 17. A system comprising: a portable electromagnetic sensor for determining a quality property of a pavement material wherein a measurement of the sensor and system produces an impedance response based on permittivity of the pavement material; and an analyzer configured to correlate the impedance response of the portable electromagnetic sensor to a density of the pavement material using an independent calibration data set or relationship between a measured permittivity response of the portable electromagnetic sensor and density of the pavement material, wherein the measured permittivity response of the portable electromagnetic sensor is related to at least one of a measured magnitude and phase of the sensor permittivity response as determined by the analyzer; wherein the portable electromagnetic sensor comprises at least one of a planar sensor, a leaky cavity sensor, a subsurface sensor, and a monopole; and an electromagnetic field generator configured to generate: a single frequency at which the permittivity of the pavement material varies with compaction of the pavement material; or a ra