Rotating rectifiers with nested diodes

What is claimed is: 1. A rectifier, comprising: a diode with opposed anode and cathode faces angled relative to a rotation axis; a first diode plate overlaying the anode face of the diode; a second diode plate overlaying the cathode face of the diode, wherein the first diode plate and second diode plates are nested within one another such that portions of the first and second diode plates axially overlap along the rotation axis; and a diode retainer disposed between the first and second diode plates, wherein the diode retainer circumferentially surrounds the diode, wherein diode retainer defines a central diode aperture, the diode aperture being bounded by a plurality of diode surfaces. 2. The rectifier as recited in claim 1 , further including an oil transfer tube bushing extending the rotation axis, wherein an end of the oil transfer tube bushing is electrically connected to the first diode plate for grounding the diode through the oil transfer tube bushing. 3. The rectifier as recited in claim 1 , wherein each of the diode plates further comprises an axially stacked body with an axially extending key segment, the key segment having an axial length that is greater than an axial height of the diode. 4. The rectifier as recited in claim 3 , wherein diode key segments are rotationally offset from one another about the rotation axis. 5. The rectifier as recited in claim 1 , wherein a periphery of the diode retainer defines a keyway, wherein a key segment of the first diode plate seats in the diode retainer keyway. 6. The rectifier as recited in claim 5 , wherein the diode retainer keyway defines barrier walls, wherein the first diode plate is electrically insulated from the second diode plate. 7. The rectifier as recited in claim 1 , wherein the diode retainer defines a plurality of flow passages, the flow passages bounding the central diode aperture and being circumferentially separated by a diode surface. 8. The rectifier as recited in claim 1 , wherein the diode is a first diode, and further including a plurality of diodes axially stacked in relation to the first diode. 9. The rectifier as recited in claim 8 , wherein the plurality of diodes includes six diodes electrically connected in a rectifier circuit. 10. The rectifier as recited in claim 8 , further including a plurality of diode plates, wherein each of the diode plates is axially stacked between adjacent diodes and nested with an adjacent diode plate. 11. The rectifier as recited in claim 10 , wherein the plurality of diode plates includes five diode plates. 12. The rectifier as recited in claim 10 , wherein the diodes and diode plates form a diode pack with an axial length, and further including a diode pivot extending along the rotation axis and having an axial length greater than the diode pack. 13. A generator, comprising: a rotor shaft defining a rotation axis; a rectifier circuit fixed in relation to the rotor shaft, including: a diode with anode and cathode faces angled relative to the rotation axis; a first diode plate overlaying the anode face of the diode; a second diode plate overlaying the cathode face of the diode, wherein the first and second diode plates are nested with one another such that portions of the first and second diode plates axially overlap along the rotation axis; a diode retainer disposed between the first and second diode plates, wherein the diode retainer circumferentially surrounds the diode, wherein diode retainer defines a central diode aperture, the diode aperture being bounded by a plurality of diode surface; and an oil transfer tube extending along the rotation axis and electrically connected to the first diode plate; and an oil transfer tube bushing coupled between the first diode plate and oil transfer tube, wherein the oil transfer tube bushing is fixed in relation to the first diode plate and rotatable in relation to the oil transfer tube for grounding the diode through the rotor shaft. 14. The generator as recited in claim 13 , wherein each of the diode plates further comprises an axially stacked body with an axially extending key segment, the key segment having an axial length that is greater than an axial height of the diode. 15. The generator as recited in claim 13 , wherein the diode retainer defines a plurality of flow passages, the flow passages bounding the central diode aperture and being circumferentially separated by a diode surface. 16. The generator as recited in claim 15 , wherein diode key segments are rotationally offset from one another about the rotation axis. 17. The rectifier as recited in claim 13 , further including a diode retainer disposed between the first and second diode plates, wherein the diode retainer circumferentially surrounds the diode. 18. The generator as recited in claim 17 , wherein a periphery of the diode retainer defines a keyway, wherein a key segment of the first diode plate seats in the diode retainer keyway. 19. The generator as recited in claim 18 , wherein the diode retainer keyway defines barrier walls, wherein the first diode plate is electrically insulated from the second diode plate.