Laser processing of a multi-phase transparent material, and multi-phase composite material

What is claimed is: 1. A composite material, comprising regions of a first phase having a dielectric constant ε r1 , regions of at least one second phase having a dielectric constant εr2, which dielectric constants εr1 and εr2 differ from one another; wherein the product of the volume, specified in cubic nanometers, of a region of the at least one second phase and the ratio of the dielectric constants of the first phase and the at least one second phase reduced by the value of one is greater than five hundred, wherein the dielectric constant of the first phase εr1 is greater than or equal to the dielectric constant of the at least one second phase εr2, and wherein at least one linear modification defined by defects forming a channel of defects of at least 500 micrometers in length extends inside the composite material, wherein the at least one linear modification has an average width in a range from 1 to 5 μm. 2. The composite material as claimed in claim 1 , wherein the composite material is a glass ceramic or a polymer material. 3. The composite material as claimed in claim 1 , wherein the product of the volume, specified in cubic nanometers, of a region of the at least one second phase and the ratio of the dielectric constants of the first phase and the at least one second phase reduced by the value of one is greater than one thousand. 4. The composite material as claimed in claim 1 , wherein the product of the volume, specified in cubic nanometers, of a region of the at least one second phase and the ratio of the dielectric constants of the first phase and the at least one second phase reduced by the value of one is greater than two thousand. 5. The composite material as claimed in claim 1 , wherein the regions of the first phase at least partially surround the regions of the at least one second phase. 6. The composite material as claimed in claim 1 , wherein the regions of the at least one second phase are embedded by the first phase. 7. The composite material as claimed in claim 1 , wherein regions of the at least one second phase are spaced apart from each other. 8. The composite material as claimed in claim 1 , wherein the at least one second phase is substantially spherical in shape. 9. The composite material as claimed in claim 1 , wherein the length of the at least one linear modification or a total defect length is 500 to 10,000 micrometers. 10. The composite material as claimed in claim 1 , wherein the length of the at least one linear modification or the total defect length is 1000 to 10,000 micrometers. 11. The composite material as claimed in claim 1 , wherein the length of the at least one linear modification or the total defect length is 3000 to 10,000 micrometers. 12. The composite material as claimed in claim 1 , wherein the ratio of the first and second dielectric constants (εr1/εr2) is greater than or equal to 1.1. 13. The composite material as claimed in claim 1 , wherein the at least one linear modification formed by defects is defined by a plurality of defects arranged along the channel, wherein the lengths of the defects increase with increasing distance from a surface of the composite material. 14. The composite material as claimed in claim 1 , wherein the at least one linear modification has an average width in a range from 2 to 3 μm. 15. The composite material as claimed in claim 1 , wherein the at least one linear modification further includes at least partially open areas. 16. The composite material as claimed in claim 15 , wherein the at least partially open areas comprise a pore-like or a bubble-shaped area. 17. A composite material, comprising regions of a first phase having a dielectric constant εr1, regions of at least one second phase having a dielectric constant εr2, which dielectric constants εr1 and εr2 differ from one another; wherein the product of the volume, specified in cubic nanometers, of a region of the at least one second phase and the ratio of the dielectric constants of the first phase and the at least one second phase reduced by the value of one is greater than five hundred, wherein the dielectric constant of the first phase εr1 is greater than or equal to the dielectric constant of the at least one second phase εr2, and wherein at least one linear modification defined by defects forming a channel of defects of at least 500 micrometers in length extends inside the composite material, wherein the at least one second phase is substantially spherical in shape. 18. A composite material, comprising regions of a first phase having a dielectric constant εr1, regions of at least one second phase having a dielectric constant εr2, which dielectric constants εr1 and εr2 differ from one another; wherein the product of the volume, specified in cubic nanometers, of a region of the at least one second phase and the ratio of the dielectric constants of the first phase and the at least one second phase reduced by the value of one is greater than five hundred, wherein the dielectric constant of the first phase εr1 is greater than or equal to the dielectricconstant of the at least one second phase εr2, and wherein at least one linear modification defined by defects forming a channel of defects of at least 500 micrometers in length extends inside the composite material, wherein the at least one linear modification formed by defects is defined by a plurality of defects arranged along the channel, wherein the lengths of the defects increase with increasing distance from a surface of the composite material.