Magnet embedded rotor and method of manufacturing the magnet embedded rotor

What is claimed is: 1. A magnet embedded rotor comprising: a first annular core in which first permanent magnets are embedded only in the first annular core; and a second annular core in which second permanent magnets independent from the first permanent magnets are embedded only in the second annular core, and which is fitted onto an outer periphery of the first annular core, wherein: the first permanent magnets and the second permanent magnets together constitute a plurality of field permanent magnets that are U-shaped; the first annular core and the second annular core are configured to rotate together without rotating relative to each other; the plurality of field permanent magnets are embedded in a circumferential arrangement within the rotor; the first permanent magnets are substantially U-shaped; and the second permanent magnets are aligned with arm portions of the first permanent magnets to form the U-shaped field permanent magnets. 2. The magnet embedded rotor according to claim 1 , wherein an engagement structure is formed on each of a fitting face of the first annular core and a fitting face of the second annular core, and the first annular core and the second annular core are engaged with each other in a circumferential direction of each of the annular cores by the engagement structures. 3. The magnet embedded rotor according to claim 1 , wherein the first annular core and the second annular core are fixedly fitted to prevent rotation relative to each other. 4. A method of manufacturing a magnet embedded rotor, comprising: magnetizing magnetic bodies embedded in a first annular core to turn the magnetic bodies into first permanent magnets; magnetizing magnetic bodies embedded in a second annular core to turn the magnetic bodies into second permanent magnets; and fitting the second annular core that has only the second permanent magnets onto an outer periphery of the first annular core that has only the first permanent magnets to form a plurality of field permanent magnets that are U-shaped from the first permanent magnets and the second permanent magnets, wherein: the first annular core and the second annular core are configured to rotate together without rotating relative to each other; the plurality of field permanent magnets are embedded in a circumferential arrangement within the rotor; the first permanent magnets are substantially U-shaped; and the second permanent magnets are aligned with arm portions of the first permanent magnets to form the U-shaped field permanent magnets. 5. The method according to claim 4 , wherein an engagement structure is formed on each of a fitting face of the first annular core and a fitting face of the second annular core, and the first annular core and the second annular core are engaged with each other in a circumferential direction of each of the annular cores by the engagement structures. 6. The method according to claim 4 , wherein the first annular core and the second annular core are fixedly fitted to prevent rotation relative to each other.