Nonreciprocal circuit element and communication apparatus using the same

What is claimed is: 1. A nonreciprocal circuit element comprising: a magnetic rotator; and a permanent magnet that applies a DC magnetic field to the magnetic rotator, wherein the magnetic rotator includes a center conductor, a first ferrite core laminated on the center conductor, and a dielectric provided in a gap formed between the center conductor and the first ferrite core, and wherein a dielectric constant of the dielectric is equal to or higher than a dielectric constant of the first ferrite core. 2. The nonreciprocal circuit element as claimed in claim 1 , wherein the dielectric covers a side surface of the center conductor. 3. The nonreciprocal circuit element as claimed in claim 1 , further comprising a grounding conductor which is disposed on a back surface of the first ferrite core positioned on a side opposite to a front surface of the first ferrite core on which the center conductor is disposed, wherein the dielectric is further provided in a gap formed between the first ferrite core and the grounding conductor. 4. The nonreciprocal circuit element as claimed in claim 1 , wherein a dielectric loss tangent (tan δ) of the dielectric is equal to or smaller than 0.01. 5. The nonreciprocal circuit element as claimed in claim 1 , wherein the magnetic rotator further includes a second ferrite core, wherein the center conductor is sandwiched between the first and second ferrite cores, and wherein the dielectric is further provided in a gap formed between the center conductor and the second ferrite core such that the center conductor and the dielectric are sandwiched between the first and second ferrite cores. 6. The nonreciprocal circuit element as claimed in claim 5 , wherein a lower surface or a upper surface of the center conductor is entirely covered with the dielectric without contacting the first or second ferrite core. 7. A nonreciprocal circuit element comprising: a magnetic rotator; and a permanent magnet that applies a DC magnetic field to the magnetic rotator, wherein the magnetic rotator includes a center conductor, a first ferrite core laminated on the center conductor, and a dielectric provided in a gap formed between the center conductor and the first ferrite core, wherein the magnetic rotator further includes a second ferrite core, wherein the center conductor is sandwiched between the first and second ferrite cores, wherein the dielectric is further provided in a gap formed between the center conductor and the second ferrite core such that the center conductor and the dielectric are sandwiched between the first and second ferrite cores, wherein a lower surface of the center conductor has a portion that contacts the first ferrite core and a portion that does not contact the first ferrite core, wherein an upper surface of the center conductor has a portion that contacts the second ferrite core and a portion that does not contact the second ferrite core, and wherein the dielectric is interposed between the portion of the lower surface of the center conductor that does not contact the first ferrite core and the first ferrite core and between the portion of the upper surface of the center conductor that does not contact the second ferrite core and the second ferrite core. 8. The nonreciprocal circuit element as claimed in claim 7 , wherein the dielectric covers a side surface of the center conductor. 9. The nonreciprocal circuit element as claimed in claim 7 , further comprising a grounding conductor which is disposed on a back surface of the first ferrite core positioned on a side opposite to a front surface of the first ferrite core on which the center conductor is disposed, wherein the dielectric is further provided in a gap formed between the first ferrite core and the grounding conductor. 10. The nonreciprocal circuit element as claimed in claim 7 , wherein a dielectric loss tangent (tan δ) of the dielectric is equal to or smaller than 0.01. 11. A nonreciprocal circuit element comprising: a magnetic rotator; and a permanent magnet that applies a DC magnetic field to the magnetic rotator, wherein the magnetic rotator includes a center conductor, a first ferrite core laminated on the center conductor, and a dielectric provided in a gap formed between the center conductor and the first ferrite core, wherein the magnetic rotator further includes a second ferrite core, wherein the center conductor is sandwiched between the first and second ferrite cores, wherein the dielectric is further provided in a gap formed between the center conductor and the second ferrite core such that the center conductor and the dielectric are sandwiched between the first and second ferrite cores, wherein the center conductor has a large thickness portion and a small thickness portion, wherein the large thickness portion contacts the second ferrite core, and wherein the dielectric is interposed between the small thickness portion and the second ferrite core. 12. The nonreciprocal circuit element as claimed in claim 11 , wherein the dielectric covers a side surface of the center conductor. 13. The nonreciprocal circuit element as claimed in claim 11 , further comprising a grounding conductor which is disposed on a back surface of the first ferrite core positioned on a side opposite to a front surface of the first ferrite core on which the center conductor is disposed, wherein the dielectric is further provided in a gap formed between the first ferrite core and the grounding conductor. 14. The nonreciprocal circuit element as claimed in claim 11 , wherein a dielectric loss tangent (tan δ) of the dielectric is equal to or smaller than 0.01.