Light beam scanning apparatus, laser machining apparatus, test method and laser machining method

What is claimed is: 1. A scanning apparatus for scanning a light beam, the apparatus comprising: a mirror configured to reflect an incident light beam; a motor configured to rotate the mirror to change a direction along which a light beam reflected from the mirror travels, the motor including: a rotation axis the mirror being mounted at a first portion of the rotation axis; and a bearing supporting the rotation axis at a second portion of the rotation axis, the mirror being inclined via a tilt of the first portion of the rotation axis relative to the second portion of the rotation axis; a detector configured to obtain a detection value corresponding to a tilt of a detected region of the mirror, the detection value being changed in accordance with a rotation angle of the mirror; and a processor configured to obtain a tilt angle of the mirror based on the detection value and the rotation angle of the mirror, the tilt angle being an inclination of the mirror relative to a line parallel to the second portion of the rotation axis in a plane including the line and rotated with the mirror. 2. The apparatus according to claim 1 , wherein the processor is configured, if the tilt angle exceeds an allowable value, to output an error signal representing that the tilt angle exceeds the allowable value. 3. The apparatus according to claim 1 , wherein the mirror, the motor, the detector, and the processor constitute a first unit, the apparatus further comprises a second unit including: a second mirror configured to reflect an incident light beam; a second configured to rotate the second mirror to change a direction along which the light beam reflected by the second mirror travels, the second motor including: a second rotation axis the second mirror being mounted at a first portion of the second rotation axis; and a second bearing supporting the second rotation axis at a second portion of the second rotation axis, the second mirror being inclined via a tilt of the first portion of the second rotation axis relative to the second portion of the second rotation axis; a second detector configured to obtain a second detection value corresponding to a tilt of a detected region of the second mirror, the second detection value being changed in accordance with a rotation angle of the second mirror; and a second processor configured to obtain a tilt angle of the second mirror based on the second detection value and the rotation angle of the second mirror, the tilt angle of the second mirror being an inclination of the second mirror relative to a second line parallel to the second portion of the second rotation axis in a plane including the second line and rotated with the second mirror; and a compensation unit configured to compensate for the tilt angle of the mirror of the first unit by the rotation angle of the second mirror of the second unit, and to compensate for the tilt angle of the second mirror of the second unit by the rotation angle of the mirror of the first unit, wherein a first direction along which the light beam is scanned by the first unit is perpendicular to a second direction along which the light beam is scanned by the second unit. 4. The apparatus according to claim 1 , wherein the detector includes an irradiation unit configured to irradiate the mirror with detection light, and a sensor having a light receiving surface which receives detection light reflected from the mirror, and is configured to obtain the detection value based on a position at which the reflected detection light strikes the light receiving surface. 5. The apparatus according to claim 1 , wherein the detector includes an interferometer. 6. The apparatus according to claim 1 , wherein the detector includes an electrostatic capacitance sensor. 7. A machining apparatus comprising: the scanning apparatus, defined in claim 1 , for scanning the light beam; and an irradiation device configured to irradiate the mirror of the scanning apparatus with a light beam to generate the scanned light beam, wherein an irradiation position of the scanned light beam on a work to be machined is controlled by the rotation angle of the mirror. 8. The apparatus according to claim 7 , further comprising a controller configured to stop machining for the work if the tilt angle of the mirror exceeds an allowable value. 9. The apparatus according to claim 7 , further comprising a controller configured to cause the irradiation device to irradiate the mirror with a light beam after the tilt angle falls within an allowable value to machine the work by irradiating the work with the scanned light beam. 10. The apparatus according to claim 1 , wherein the mirror, the motor, the detector, and the processor constitute a first unit, the apparatus further comprises a second unit including: a second mirror configured to reflect an incident light beam; a second configured to rotate the second mirror to change a direction along which the light beam reflected by the second mirror travels, the second motor including: a second rotation axis the second mirror being mounted at a first portion of the second rotation axis; and a second bearing supporting the second rotation axis at a second portion of the second rotation axis, the second mirror being inclined via a tilt of the first portion of the second rotation axis relative to the second portion of the second rotation axis; and a compensation unit configured to compensate for the tilt angle of the mirror of the first unit by a rotation angle of the second mirror of the second unit, wherein a first direction along which the light beam is scanned by the first unit is perpendicular to a second direction along which light beam is scanned by the second unit. 11. A scanning apparatus for scanning a light beam, the apparatus comprising: a first mirror configured to reflect an incident light beam; a first motor including a first rotation axis which mounts the first mirror and a first bearing for supporting the first rotation axis and configured to rotate the first mirror to change a direction along which a light beam reflected from the first mirror travels; a first detector configured to obtain a first detection value corresponding to a tilt of a detected region of the first mirror, the first detection value being changed in accordance with a first rotation angle of the first mirror; a first processor configured to obtain a first tilt angle of the first mirror based on the first detection value and the first rotation angle, the first tilt angle being an inclination of the first mirror relative to a line parallel to a portion of the first rotation axis at which the first rotation axis is supported by the first bearing; a second mirror configured to reflect an incident light beam; a second motor including a second rotation axis which mounts the second mirror and a second bearing for supporting the second rotation axis and configured to rotate the second mirror to change a direction along which the light beam reflected by the second mirror travels; a second detector configured to obtain a second detection value corresponding to a tilt of a detected region of the second mirror, the second detection value being changed in accordance with a second rotation angle of the second mirror; a second processor configured to obtain a second tilt angle of the second mirror based on the second detection value and the second rotation angle, the second tilt angle being an inclination of the second mirror relative to a line parallel to a portion of the second rotation axis at which the second rotation axis is supported by the second bearing; and a compensation unit configured to compensate for the first tilt angl