Negative dielectric constant material based on ion conducting materials

The invention claimed is: 1. An effectively homogeneous negative dielectric material comprising: a doped dielectric material comprising a polymer or a polymer composite dielectric material doped with an aqueous acid solution having an acid concentration of about 50 wt % to about 60 wt %; wherein the doped dielectric material is heated under vacuum to form the effectively homogeneous negative dielectric material which is homogenous at a molecular level; and wherein the effectively homogeneous negative dielectric material has a negative dielectric constant at megahertz frequencies. 2. The negative dielectric material of claim 1 , wherein the dielectric material further comprises nonmetal ions. 3. The negative dielectric material of claim 2 , wherein the nonmetal ions are selected from the group consisting of phosphate, chloride, chlorite, fluoride, iodide, ammonium ion, or combinations thereof. 4. The negative dielectric material of claim 1 , wherein the aqueous acid solution comprises aqueous phosphoric acid. 5. The negative dielectric material of claim 1 , wherein a plasma frequency and an dielectric constant of the material are controlled by concentration and effective mass of dopant ions and by operating temperature. 6. The negative dielectric material of claim 5 , wherein the material is characterized with an optical property that is tailored by controlling a plasma frequency. 7. The negative dielectric material of claim 1 , wherein a resonance type of conductivity of the material is controlled by concentration and effective mass of dopant ions and by operating temperature. 8. The effectively homogenous negative dielectric material of claim 1 , wherein the polymer comprises poly(benzimidazole). 9. A negative index material comprising: an effective homogeneous negative dielectric material comprising a polymer or a polymer composite dielectric material doped with an aqueous acid solution having an acid concentration of about 50 wt % to about 60 wt % to form a doped dielectric material; wherein the doped dielectric material is heated under vacuum to form the effectively homogeneous negative dielectric material which is homogenous at a molecular level; and wherein the effectively homogeneous negative dielectric material has a negative dielectric constant at megahertz frequencies. 10. The negative index material of claim 9 , wherein the polymer comprises poly(benzimidazole). 11. The negative index material of claim 9 , wherein the aqueous acid solution comprises aqueous phosphoric acid. 12. An optical or microwave device comprising: an effectively homogeneous negative dielectric material comprising a polymer or a polymer composite dielectric material doped with an aqueous acid solution having an acid concentration of about 50 wt % to about 60 wt % to form a doped dielectric material; wherein the doped dielectric material is heated under vacuum to form the effectively homogeneous negative dielectric material which is homogenous at a molecular level; and wherein the effectively homogeneous negative dielectric material has a negative dielectric constant at megahertz frequencies. 13. The device of claim 12 , wherein the device is an optical device characterized as a perfect lens, an optical power limiting device, or an optical switch. 14. The device of claim 12 , wherein the device is a microwave device characterized as an antenna, a filter, or a cloaking device. 15. The optical or microwave device of claim 12 , wherein the polymer comprises poly(benzimidazole). 16. The optical or microwave device of claim 12 , wherein the aqueous acid solution comprises aqueous phosphoric acid.