Electric machine with Q-offset grooved interior-magnet rotor and vehicle

The invention claimed is: 1. A rotor comprising: a plurality of magnets; a rotor core comprising a plurality of holes in which the magnets are provided; wherein the plurality of magnets are arranged in regions of alternating polarity, wherein each of said regions has at least one magnet; a plurality of magnetically-assisted salient pole members, each of which is provided in a core portion between the regions; a first magnetic air gap formed with an edge of each of the magnets and the holes; and a second magnetic air gap provided in each of the magnetically-assisted salient pole members along an axial direction of a rotation axis at a position offset in a circumferential direction of the rotation axis from a q-axis passing through a salient pole center of each of the magnetically-assisted salient pole members, wherein the second magnetic air gap is formed independently from the first magnetic air gap; and the second magnetic air gap is provided on every other pole of the magnetically-assisted salient pole members, and a pole provided with the second magnetic air gap and a pole without the second magnetic air gap are alternately arranged. 2. The rotor according to claim 1 , wherein a magnet hole pole radian τg/τp is set from 0.5 to 0.9, wherein τp indicates pole pitch of the permanent magnet and τg indicates an angle for the magnet and the first magnetic air gap on both sides thereof. 3. The rotor according to claim 2 , wherein the magnet hole pole radian τg/τp is set from 0.7 to 0.8. 4. The rotor according to claim 1 , wherein the second magnetic air gap is a groove provided on an outer periphery of the rotor core. 5. A rotating electrical machine comprising: a stator having a stator coil; and a rotor provided rotatably around a specific rotation axis with respect to the stator, wherein the rotor includes: a plurality of magnets; a rotor core comprising a plurality of holes in which the magnets are provided; wherein the plurality of magnets are arranged in regions of alternating polarity, wherein each of said regions has at least one magnet; a plurality of magnetically-assisted salient pole members, each of which is provided in a core portion between the regions; a first magnetic air gap formed with an edge of each of the magnets and the holes; and a second magnetic air gap provided in each of the magnetically-assisted salient pole members along an axial direction of the rotation axis at a position offset in a circumferential direction of the rotation axis from a q-axis passing through a salient pole center of each of the magnetically-assisted salient pole members, wherein the second magnetic air gap is formed independently from the first magnetic air gap; and the second magnetic air gap is provided on every other pole of the magnetically-assisted salient pole members, and a pole provided with the second magnetic air gap and a pole without the second magnetic air gap are alternately arranged. 6. The rotating electrical machine to claim 5 , wherein a magnet hole pole radian τg/τp is set from 0.5 to 0.9, wherein τp indicates pole pitch of the permanent magnet and τg indicates an angle for the magnet and the first magnetic air gap on both sides thereof. 7. The rotating electrical machine to claim 6 , wherein the magnet hole pole radian τg/τp is set from 0.7 to 0.8. 8. The rotating electrical machine to claim 5 , wherein the second magnetic air gap is a groove provided on an outer periphery of the rotor core.