Optical scanning apparatus and image forming device

What is claimed is: 1. An optical scanning apparatus, comprising: a light source; an optical deflector having a rotary polygon mirror to deflect a light beam from the light source; a scanning optical system configured to focus the light beam deflected by the optical deflector on a target surface to be scanned; a sync detecting sensor configured to determine a write start timing on the target surface; and a processor configured to measure a time from a reception of the light beam reflected on a first reflective surface, among a plurality of reflective surfaces of the rotary polygon mirror, at the sync detecting sensor to another reception of the light beam reflected again on the first reflective surface at the sync detecting sensor, and correct detection data of the sync detecting sensor based on the measured time, wherein the detection data of the sync detecting sensor corresponding to the first reflective surface is corrected using only the light beam reflected on the first reflective surface. 2. The optical scanning apparatus according to claim 1 , wherein the processor is configured to determine a different write start timing on a different target surface based on the corrected detection data. 3. The optical scanning apparatus according to claim 2 , wherein the processor is configured to determine a first write start timing on a first target surface based on the detection data of the sync detecting sensor, and determine a second write start timing on a second target surface based on the corrected detection data, and wherein a face of the rotary polygon mirror which deflects the light beam used to determine the first write start timing is same as the face of the rotary polygon mirror which deflects the light beam used to determine the second write start timing. 4. The optical scanning apparatus according to claim 1 , wherein the processor is configured to determine the write start timing on the target surface based on the corrected detection data. 5. The optical scanning apparatus according to claim 4 , wherein the light source and the sync detecting sensor are mounted on a single substrate. 6. The optical scanning apparatus according to claim 1 , wherein the processor is configured to correct the detection data of the sync detecting sensor in accordance with a formula: (the corrected detection data)=(the measured time needed for one revolution of the rotary polygon mirror)/(an average value of history data of the measured time). 7. The optical scanning apparatus according to claim 6 , wherein the measured time needed for one revolution of the rotary polygon mirror equals a first measured value obtained during a preceding cycle of the rotary polygon mirror when the first measured value falls within a predetermined range, and wherein the measured time needed for one revolution of the rotary polygon mirror equals a second measured value obtained during a cycle before the preceding cycle of the rotary polygon mirror when the first measured value does not fall within the predetermined range. 8. The optical scanning apparatus according to claim 7 , wherein the second measured value falls within the predetermined range. 9. An image forming device comprising: a photoconductive drum; and the optical scanning apparatus according to claim 1 , wherein the optical scanning apparatus is arranged to optically scan the photoconductive drum by the light beam. 10. The optical scanning apparatus according to claim 1 , further comprising: a coupling lens that converts the light beam from the light source into a parallel light beam. 11. The optical scanning apparatus according to claim 10 , further comprising: an aperture plate that adjusts a beam diameter of the parallel light beam received from the coupling lens. 12. The optical scanning apparatus according to claim 11 , further comprising: a cylindrical lens that converges the parallel light beam passed through an opening of the aperture plate, wherein the rotary polygon mirror receives the converged light beam. 13. The optical scanning apparatus according to claim 1 , wherein each face of the rotary polygon mirror deflects the light beam at a constant angular velocity. 14. The optical scanning apparatus according to claim 1 , wherein the sync detecting sensor is set to a low level when an amount of received light is smaller than a predetermined threshold, and is set to a high level when the amount of received light is larger than the predetermined threshold.