Patent ID: 7511822

Claim:
An optical tomographic imaging apparatus for obtaining a tomographic image of a measuring object, comprising: light source unit for outputting light; light splitting means for splitting the light outputted from the light source unit into measuring light and reference light; optical path length control means for controlling the optical path length of either the measuring light or the reference light split by the light splitting means; a probe having an optical fiber for guiding the measuring light split by the light splitting means to the measuring object; light combining means for combining reflected light reflected from the measuring object when the measuring light outputted from the probe is irradiated thereon with the reference light; interference light detecting means for detecting interference light between the reflected light and the reference light combined by the light combining means; image obtaining means for obtaining a tomographic image of the measuring object from the interference light detected by the interference light detecting means; and dispersion compensating means for compensating for the wavelength dispersion caused by the optical fiber of the probe, wherein: the optical path length control means controls the optical path length of the reference light and includes: a diffraction grating element for dispersing the reference light split by the light splitting means; a collimator lens for collimating the reference light dispersed by the diffraction grating element; a reflection mirror for reflecting the reference light transmitted through the collimator lens back to the collimator lens and inputting to the diffraction grating element, the reflection mirror pivoting on a position which is offset from the optical axis of the collimator lens; and a mirror for reflecting the reference light inputted to the diffraction grating element by the reflection mirror and dispersed from the diffraction grating element back to the diffraction grating element; and the dispersion compensating means is formed so as to have negative dispersion properties by tilting the diffraction grating element with respect to the optical axis of the collimator lens, in order to compensate positive dispersion properties generated by the optical fiber, and wherein: the light source unit outputs laser light by varying with time the wavelength thereof at a predetermined period; the optical path length control means adjusts the start position of the measurement according to the pivoting of the reflection mirror; and the image obtaining means obtains a tomographic image of the measuring object by detecting the intensity of the reflected light reflected from each depth position of the measuring object through frequency analysis of the interference light.