Achromatic registration of quadrature components of the optical spectrum in spectral domain optical coherence tomography

• Published in: Quantum electronics (Woodbury, N.Y.) Vol. 44; no. 7; pp. 664 - 669
• Main Authors: Shilyagin, P.A., Gelikonov, G.V., Gelikonov, V.M., Moiseev, A.A., Terpelov, D.A.
• Format: Journal Article
• Language: English
• Published: United States Turpion Ltd and the Russian Academy of Sciences 01.01.2014
• Subjects: Achromatism; Artefacts; autocorrelation artefacts; Beams (radiation); CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS; complex amplitude of the optical spectrum; Delay lines; optical coherence tomography; PHASE SHIFT; PHYSICS OF ELEMENTARY PARTICLES AND FIELDS; QUADRATURES; SPECTRA; TOMOGRAPHY; TWO-DIMENSIONAL CALCULATIONS
• ISSN: 1063-7818; 1468-4799
• DOI: 10.1070/QE2014v044n07ABEH015465

We have thoroughly investigated the method of simultaneous reception of spectral components with the achromatised quadrature phase shift between two portions of a reference wave, designed for the effective suppression of the 'mirror' artefact in the resulting image obtained by means of spectral domain optical coherence tomography (SD OCT). We have developed and experimentally tested a phase-shifting element consisting of a beam divider, which splits the reference optical beam into the two beams, and of delay lines being individual for each beam, which create a mutual phase difference of in the double pass of the reference beam. The phase shift achromatism over a wide spectral range is achieved by using in the delay lines the individual elements with different dispersion characteristics. The ranges of admissible adjustment parameters of the achromatised delay line are estimated for exact and inexact conformity of the geometric characteristics of its components to those calculated. A possibility of simultaneous recording of the close-to-quadrature spectral components with a single linear photodetector element is experimentally confirmed. The suppression of the artefact mirror peak in the OCT-signal by an additional relative to the level of its suppression is experimentally achieved when the air delay line is used. Two-dimensional images of the surface positioned at an angle to the axis of the probe beam are obtained with the correction of the 'mirror' artefact while maintaining the dynamic range of the image.