Electric field enhanced small particle filter

The invention claimed is: 1. A method comprising: ionizing particles to be captured; creating electric fields to polarize mats of filter material formed of conducting fibers and mats formed of non-conducting filter material disposed between adjacent mats of conducting fibers; and trapping the ionized particles in the polarized mats. 2. The method of claim 1 wherein creating electric fields comprises positively and negatively charging different conducting fibers wherein positively charged conducting fibers have a diameter smaller than a diameter of negatively charged conducting fibers such that a higher charge density is formed on the positively charged fibers when creating the electric fields. 3. The method of claim 1 wherein the conducting fibers are woven. 4. The method of claim 1 wherein the fibers have a diameter of 1-5 microns. 5. A method comprising: ionizing particles to be captured, wherein ionizing particles comprises generating many very small droplets of water; creating electric fields to polarize mats of filter material; and trapping the ionized particles in the polarized mats. 6. The method of claim 1 wherein nonconducting layers between closely spaced conducting layers are polarized by the electric fields. 7. A method comprising: ionizing particles to be captured; creating electric fields to polarize mats of filter material; trapping the ionized particles in the polarized mats; and measuring a capacitance across the mats of filter material. 8. The method of claim 7 and further comprising determining an end of filter life as a function of the measured capacitance. 9. The method of claim 1 wherein the electric fields are created by an applied AC voltage to cause particles to move back and forth through a mat of filter material. 10. A filter comprising: multiple mats of conducting filter material formed of conducting fibers; multiple mats of non-conducting filter material, each non-conducting filter material mat disposed between adjacent mats of conducting material; and electrodes coupled to the mats of conducting filter material to create an electric field between successive adjacent mats of conducting material to enhance filtering of ionized particles in fluid flowing through the filter. 11. The filter of claim 10 wherein the conducting fibers are woven. 12. The filter of claim 10 wherein the fibers have a diameter of 1-5 microns. 13. The filter of claim 10 and further comprising metal grids outer sides of the mats.