Optical coherence tomography device

What is claimed is: 1. An optical coherence tomography device comprising: an SS-OCT optical system which includes a wavelength swept optical source configured to sweep an emission wavelength; an optical splitter which is configured to split an interference signal light caused by interference between a measurement light and a reference light into a first interference signal light and a second interference signal light having a phase difference with respect to the first interference signal light; a first balance detector which includes a first detector configured to detect the first interference signal light and a second detector configured to detect the second interference signal light, and which is configured to process detection signals from the first detector and the second detectors to perform balance detection; a first optical member which is disposed between the optical splitter and one of the first detector and the second detector to generate a fixed pattern noise by one of the first interference signal light and the second interference signal light; and a calculation processor which is configured to obtain correction information for correcting a mapping state of a wavenumber component for each sampling point in the first balance detector by calculation based on a signal component corresponding to the fixed pattern noise included in a detection signal output from the first balance detector. 2. The optical coherence tomography device according to claim 1 , wherein the calculation processor is configured to perform sampling of an interference signal between the measurement light and the reference light in accordance with change of the emission wavelength by the wavelength swept optical source and obtain internal information of an examination object based on the interference signal at each wavelength obtained by sampling. 3. The optical coherence tomography device according to claim 1 , wherein the calculation processor is configured to correct a phase shift of a spectral signal including the interference signal at each wavelength based on the signal component corresponding to the fixed pattern noise included in the detection signal output from the first balance detector. 4. The optical coherence tomography device according to claim 1 , wherein the first optical member is disposed such that a front surface and a rear surface thereof vertically intersect with an optical axis. 5. The optical coherence tomography device according to claim 1 , wherein the first optical member is disposed between the optical splitter and one of the first detector and the second detector, for which a light splitting ratio by the optical splitter is higher. 6. The optical coherence tomography device according to claim 1 , further comprising: a second balance detector which includes a third detector configured to detect the first interference signal light and a fourth detector configured to detect the second interference signal light, and which is configured to process detection signals from the third detector and the fourth detector to perform balance detection; and a second optical member which is disposed between the optical splitter and one of the third detector and the fourth detector to generate a fixed pattern noise by one of the first interference signal light and the second interference signal light. 7. The optical coherence tomography device according to claim 6 , wherein the calculation processor is configured to obtain correction information for correcting a mapping state of a wavenumber component for each sampling point in the second balance detector by calculation based on a signal component corresponding to the fixed pattern noise included in a detection signal output from the second balance detector. 8. The optical coherence tomography device according to claim 6 , wherein the first detector and the third detector are used as vertical polarization detectors configured to detect an interference signal having a vertical polarization component, at each wavelength, wherein the second detector and the fourth detector are used as horizontal polarization detectors configured to detect an interference signal having a horizontal polarization component, at each wavelength, and wherein a polarization property of an examination object is obtained based on the interference signals having the vertical polarization component and the horizontal polarization component, at each wavelength. 9. The optical coherence tomography device according to claim 6 , wherein the second optical member is disposed such that a front surface and a rear surface thereof vertically intersect with an optical axis. 10. The optical coherence tomography device according to claim 6 , wherein the second optical member is disposed between the optical splitter and one of the third detector and the fourth detector, for which a light splitting ratio by the optical splitter is higher. 11. The optical coherence tomography device according to claim 1 , wherein the calculation processor is configured to correct a phase shift of a spectral signal output from the first balance detector using the fixed pattern noise generated by the first optical member. 12. The optical coherence tomography device according to claim 11 , wherein the calculation processor is configured to correct a mapping state of the wavenumber component for each sampling point in the first balance detector is corrected after correcting the phase shift. 13. The optical coherence tomography device according to claim 1 , wherein the correction information is for correcting the mapping state of the wavenumber component for each sampling point such that a phase φ(k) of the signal component corresponding to the fixed pattern noise converges in a predetermined acceptable range. 14. The optical coherence tomography device according to claim 1 , wherein the calculation processor is configured to: obtain a phase φ( k ) of the signal component which is output from the first balance detector and corresponds to the fixed pattern noise; obtain the correction information by calculation, with which the obtained phase φ(k) converges in a predetermined acceptable range; correct a corresponding relationship between each wavenumber component and each sampling point using the obtained correction information; and obtain internal information of an examination object using the corrected corresponding relationship. 15. An optical coherence tomography device comprising: an SS-OCT optical system which includes a wavelength swept optical source configured to sweep an emission wavelength and an optical splitter configured to split a light from the wavelength swept optical source into a measurement light and a reference light; an optical member which is configured to generate a fixed pattern noise by an interference signal light caused by interference between the measurement light and the reference light; a detector which is configured to receive a light from the wavelength swept optical source through the optical member as the interference signal light; and a processor which is configured to obtain internal information of an examination object by processing a spectral signal included in an detection signal output from the detector, the spectral signal including interference signals at each wavenumber; and wherein the processor is configured to correct a phase shift of the spectral signal based on a signal component included in the detection signal and corresponding to the fixed pattern noise, and wherein the processor obtains the internal information of the examination object based on the cor