Nuclear density gauges including a material property function for measuring a construction material

What is claimed: 1. A nuclear density gauge for measuring a layer density of a sample construction material, the nuclear density gauge comprising: a movable radiation source positioned adjacent a surface of a sample construction material and adapted to emit radiation towards an interior of the sample construction material; a radiation detector positioned apart from the radiation source and being operable to produce signals representing a backscattered energy level of radiation detected from the radiation source; and a material property calculation function configured to calculate a value associated with a density of at least one layer of the sample construction material based upon the signals produced by the radiation detector. 2. The nuclear density gauge of claim 1 , wherein the material property calculation function is configured to determine an energy relationship based on the signals to determine a lithography correction for the sample construction material. 3. The nuclear density gauge of claim 2 , wherein the material property calculation function is configured to calculate a relationship of counts in a low-energy window and a counts in a high-energy window. 4. The nuclear density gauge of claim 2 , wherein the material property calculation function is configured to select one of granite or limestone or type of aggregate calibration curve, and a correction to a general calibration curve based on the energy relationship. 5. The nuclear density gauge of claim 1 , wherein the material property calculation function is configured to use a relationship of air void content for surface roughness correction based on the signals. 6. The nuclear density gauge of claim 1 , wherein the radiation source is a gamma radiation source, and wherein the radiation detector is a gamma radiation detector. 7. The nuclear density gauge of claim 1 , wherein the radiation source comprises a material selected from the group consisting of cesium-137, cobalt-60, and Ra-226. 8. The nuclear density gauge of claim 1 , wherein the signals represent an energy level of detected radiation being a predetermined portion of an energy spectrum of the one or more predetermined energy levels of the detected radiation, and wherein the material property calculation function is configured to calculate the value associated with the density of the sample construction material based upon the predetermined portion of the energy spectrum of the detected radiation. 9. The nuclear density gauge of claim 1 , further comprising a display operable to display the value associated with the density of the sample material. 10. The nuclear density gauge of claim 1 , wherein the sample construction material comprises asphalt. 11. The nuclear density gauge of claim 1 , wherein the sample construction material comprises a material selected from the group consisting of soil, concrete, pavement, stone, sub-base material, and sub-grade material. 12. The nuclear density gauge of claim 1 , wherein the radiation detector comprises at least one energy-selective, gamma radiation detector. 13. The nuclear density gauge of claim 1 , wherein the radiation detector is a scintillation-type, gamma radiation detector. 14. The nuclear density gauge of claim 1 , wherein the material property calculation function is configured to calculate a value of the density of the sample construction material, and to correct for ambient background radiation. 15. The nuclear density gauge of claim 1 , wherein the material property calculation function uses at least two energy levels to correct the density based on the lithography of the construction material.