Abstract: An optical low-coherence reflectometry with spectral reception for obtaining images without coherent noise caused by self-interference of the radiation scattered from the studied object and by spurious reflections in the optical path of the system is disclosed. Two or more consecutive measurements of the interference spectrum are made. During at least one measurement of the interference spectrum by means of the interference control unit the phase between the interfering parts of the radiation is modulated by a certain law during exposure, which results in averaging and zeroing of the cross-correlation (useful) component of the registered spectrum, and during at least one additional measurement of the interference spectrum, the phase between the interfering parts of the radiation is not modulated during exposure. The phase between the interfering parts of the radiation may be set to be different in additional measurements of the interference spectrum.

Abstract: The invention relates to laser technology and can be used for creating tunable lasers in the near IR region for swept source optical coherence tomography. The developed tunable frequency selector is used for a tunable laser with a shortest possible optical length of the active cavity comprising a frequency selector for operation in the regime of single longitudinal mode generation. The use of the frequency selector as one of the laser mirrors reduces the number of adjustments of laser optical elements and laser costs. To achieve this goal, a waveguide with a mode size of several wavelengths is positioned in front of the Fabry-Perot cavity. The modes of the waveguide and the Fabry-Perot cavity are partially matched. The Fabry-Perot cavity may be tilted relative to the optical axis of the waveguide. The Fabry-Perot cavity may comprise two minors, at least one of which is convex, or two minors, at least one of which has no radial symmetry.

Abstract: The invention relates to optical low-coherence reflectometry with spectral reception and may be used for obtaining images without coherent noise caused by self-interference of the radiation scattered from the studied object and by spurious reflections in the optical path of the system. Two or more consecutive measurements of the interference spectrum are made. During at least one measurement of the interference spectrum by means of the interference control unit the phase between the interfering parts of the radiation is modulated by a certain law during exposure, which results in averaging and, hence, zeroing of the cross-correlation (useful) component of the registered spectrum, and during at least one additional measurement of the interference spectrum, the phase between the interfering parts of the radiation is not modulated during exposure. The phase between the interfering parts of the radiation may be set to be different in additional measurements of the interference spectrum.

Abstract: The invention relates to studies of internal structures of objects with the aid of optical means. According to the invention an optical system (15) of the delivering device for low coherence optical radiation, in a particular embodiment, an optical fiber probe (8), includes at least two lens components (19), (20), which have a positive focal power and are positioned substantionally confocally. This ensures a constant propagation time for the low coherence optical radiation propagating from a given point of the transverse scanning surface (28) or (39) to a corresponding conjugate point of the image plane (22). That provides elimination of the transverse scanning related aberration of the optical path length for low coherence optical radiation directed towards the object (11) both for a flat transverse scanning surface (28) and for a transverse scanning surface (39) having a curvature.