Impedance matching in very high dielectric constant isolator/circulator junctions

What is claimed is: 1. A junction configured for use as a circulator or isolator, the junction comprising: an outer composite dielectric ring, the outer composite dielectric ring being composed of a plurality of first dielectric constant material portions and a plurality of second dielectric constant material portions, the plurality of first dielectric constant material portions having a dielectric constant greater than the plurality of second dielectric constant material portions; and an inner high dielectric constant disc located within an aperture of the outer composite dielectric ring. 2. The junction of claim 1 wherein the inner high dielectric constant disc is a ferrite disc. 3. The junction of claim 1 further including a plurality of transmission lines, the low dielectric constant material portions at least partially covering each of the plurality of transmission lines. 4. The junction of claim 1 wherein the plurality of first dielectric constant material portions are symmetrically spaced around the inner high dielectric constant disc and the plurality of second dielectric constant material portions are symmetrically spaced around the inner high dielectric constant disc. 5. The junction of claim 1 wherein the plurality of first dielectric constant material portions include magnesium titanate, calcium titanate, or combinations thereof. 6. The junction of claim 1 wherein the plurality of second dielectric constant material portions include magnesium titanate, calcium titanate, or combinations thereof. 7. The junction of claim 1 wherein the plurality of first dielectric constant material portions are bonded to the plurality of second dielectric constant material portions. 8. The junction of claim 1 wherein the plurality of second dielectric constant material portions are enclosed by the plurality of first dielectric constant material portions. 9. The junction of claim 1 wherein the plurality of second dielectric constant material portions are a material that at least partially coats the plurality of first dielectric constant material portions. 10. The junction of claim 1 wherein the plurality of first dielectric constant portions has a dielectric constant of at least 30. 11. The junction of claim 1 wherein the plurality of second dielectric constant portions has a dielectric constant of less than 30. 12. The junction of claim 1 wherein the plurality of second dielectric constant portions includes three second dielectric constant portions spaced approximately 120 degrees apart. 13. A radiofrequency device comprising: a circulator/isolator junction having an outer composite dielectric ring, the outer composite dielectric ring being composed of a plurality of first dielectric constant material portions and a plurality of second dielectric constant material portions, the plurality of first dielectric constant material portions having a dielectric constant greater than the plurality of second dielectric constant material portions, and an inner high dielectric constant disc located within the outer composite dielectric ring. 14. The radiofrequency device of claim 13 wherein the radiofrequency device is a transceiver or an amplifier. 15. The radiofrequency device of claim 13 wherein the radiofrequency device is configured for use in bandwidths of 1.8-2.7 GHz. 16. The radiofrequency device of claim 13 wherein the plurality of first dielectric constant portions has a dielectric constant of at least 30 and the plurality of second dielectric constant portions has a dielectric constant of less than 30. 17. A method of forming an isolator/circulator junction having varied dielectric components, the method comprising: combining an outer composite dielectric ring with an inner high dielectric constant disc, the inner high dielectric constant disc fitting within the outer composite dielectric ring, the outer composite dielectric ring being formed of a plurality of first dielectric constant material portions and a plurality of second dielectric constant material portions, and the plurality of first dielectric constant material portions having a dielectric constant greater than the plurality of second dielectric constant material portions. 18. The method of claim 17 wherein the combining includes adhering using an adhesive. 19. The method of claim 17 wherein the combining includes frictional connecting. 20. The method of claim 17 wherein the plurality of first dielectric constant portions has a dielectric constant of at least 30 and the plurality of second dielectric constant portions has a dielectric constant of less than 30.