Patent ID: 7440111

Claim:
A confocal microscope apparatus for obtaining an image of a measuring object at a predetermined depth, comprising: a light source unit for outputting light; a light splitting means for splitting the light outputted from the light source unit into measuring light and reference light; a light modulating section for producing a frequency difference between the measuring light and reference light split by the light splitting means; an optical fiber section comprised of a multicore optical fiber having a plurality of cores; a core selection means for selecting a core of the plurality of cores for guiding the measuring light; a synchronization control means for controlling the light modulating section and the core selection means in synchronization; a confocal optical system for focusing the measuring light split by the light splitting means on the measuring object, and focusing reflected light reflected from the measuring object when the measuring light is focused thereon; a light combining means for combining the reflected light focused by the confocal optical system with the reference light; an interference light detecting means for detecting interference light produced when the reflected light and reference light combined by the light combining means interfere with each other; and an image obtaining means for obtaining an image of the measuring object at a predetermined depth based on the interference light detected by the interference light detecting means, wherein the light modulating section comprises: 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, wherein the reflection mirror is pivoted on the position that satisfies the relationship represented by the formula, x=I f λ 0 /p, where: λ 0 is the wavelength of the reference light; I f is the distance between the collimator lens and the reflection mirror; p is the pitch of the diffraction grating element; and x is the offset distance between the optical axis of the collimator lens and the pivot center when the reflection mirror is pivoted.