Nonreciprocal circuit element, manufacturing method of the same, and communication apparatus using the same

What is claimed is: 1. A nonreciprocal circuit element comprising: a magnetic rotator disposed between first and second ground conductors; and a first permanent magnet that applies a DC magnetic field to the magnetic rotator, wherein the magnetic rotator includes: a first ferrite core having a first surface covered with the first ground conductor; a second ferrite core having a second surface covered with the second ground conductor; a first center conductor directly fixed to a third surface of the first ferrite core positioned opposite to the first surface; and a second center conductor directly fixed to a fourth surface of the second ferrite core positioned opposite to the second surface, and wherein the first ground conductor is arranged between the magnetic rotator and the first permanent magnet. 2. The nonreciprocal circuit element as claimed in claim 1 , wherein the first ground conductor is directly fixed to the first surface of the first ferrite core, and wherein the second ground conductor is directly fixed to the second surface of the second ferrite core. 3. The nonreciprocal circuit element as claimed in claim 1 , further comprising a dielectric material that bonds the third surface of the first ferrite core and the fourth surface of the second ferrite core together, wherein the first ferrite core and the first center conductor is fixed to each other without interposition of the dielectric material, and wherein the second ferrite core and the second center conductor is fixed to each other without interposition of the dielectric material. 4. The nonreciprocal circuit element as claimed in claim 1 , wherein the first and second center conductors have a same planar shape. 5. The nonreciprocal circuit element as claimed in claim 1 , further comprising a second permanent magnet that applies a DC magnetic field to the magnetic rotator, wherein the second ground conductor is arranged between the magnetic rotator and the second permanent magnet. 6. The nonreciprocal circuit element as claimed in claim 1 , wherein the first and second center conductors face each other without a permanent magnet interposed therebetween. 7. The nonreciprocal circuit element as claimed in claim 1 , wherein the first and second center conductors contact each other. 8. The nonreciprocal circuit element as claimed in claim 7 , wherein each of the first and second center conductors includes first, second, and third ports, wherein the first port of the first center conductor contact the first port of the second center conductor, wherein the second port of the first center conductor contact the second port of the second center conductor, and wherein the third port of the first center conductor contact the third port of the second center conductor. 9. A communication apparatus including a nonreciprocal circuit element, the nonreciprocal circuit element comprising: a magnetic rotator disposed between first and second ground conductors; and a first permanent magnet that applies a DC magnetic field to the magnetic rotator, wherein the magnetic rotator includes: a first ferrite core having a first surface covered with the first ground conductor; a second ferrite core having a second surface covered with the second ground conductor; a first center conductor directly fixed to a third surface of the first ferrite core positioned opposite to the first surface; and a second center conductor directly fixed to a fourth surface of the second ferrite core positioned opposite to the second surface, and wherein the first ground conductor is arranged between the magnetic rotator and the first permanent magnet. 10. A nonreciprocal circuit element comprising: a first ferrite core having first and second surfaces opposite to each other; a second ferrite core having third and fourth surfaces opposite to each other; an adhesive that that bonds the first and second ferrite cores together such that the first surface of the first ferrite core and the third surface of the second ferrite core face each other; a first center conductor formed on the first surface of the first ferrite core such that there is no gap or the adhesive between the first surface of the first ferrite core and the first center conductor; a second center conductor formed on the third surface of the second ferrite core such that there is no gap or the adhesive between the third surface of the second ferrite core and the second center conductor; and a first permanent magnet covering the second surface of the first ferrite core. 11. The nonreciprocal circuit element as claimed in claim 10 , wherein the first and second center conductors have a same planar shape. 12. The nonreciprocal circuit element as claimed in claim 10 , further comprising a second permanent magnet covering the fourth surface of the second ferrite core. 13. The nonreciprocal circuit element as claimed in claim 10 , wherein the first and second center conductors face each other without a permanent magnet interposed therebetween. 14. The nonreciprocal circuit element as claimed in claim 10 , further comprising: a first ground conductor formed on the second surface of the first ferrite core; and a second ground conductor formed on the fourth surface of the second ferrite core. 15. The nonreciprocal circuit element as claimed in claim 14 , wherein the first ground conductor is formed on the second surface of the first ferrite core such that there is no gap or the adhesive between the second surface of the first ferrite core and the first ground conductor, and wherein the second ground conductor is formed on the fourth surface of the second ferrite core such that there is no gap or the adhesive between the fourth surface of the second 10 ferrite core and the second ground conductor. 16. A method of manufacturing a nonreciprocal circuit element, the method comprising: forming a first ground conductor directly on a first surface of a first ferrite core; forming a first center conductor directly on a second surface of the first ferrite core positioned opposite to the first surface; forming a second ground conductor directly on a third surface of a second ferrite core; forming a second center conductor directly on a fourth surface of the second ferrite core positioned opposite to the third surface; fixing the first and second ferrite cores such that the second surface of the first ferrite core and the fourth surface of the second ferrite core face each other; and disposing a permanent magnet that applies a DC magnetic field to the first and second ferrite cores such that the first ground conductor is arranged between the magnetic rotator and the permanent magnet. 17. The method of manufacturing a nonreciprocal circuit element as claimed in claim 16 , wherein the first and second center conductors are formed on the second surface of the first ferrite core and the fourth surface of the second ferrite core, respectively, by printing, plating, or diffusion bonding.