Coherence and diffraction limited resolution in microscopic OCT by a unified approach for the correction of dispersion and aberrations

Hinnerk Schulz-Hildebrandt, Michael Münter, Martin Ahrens, Hendrik Spahr, Dierck Hillmann, Peter König, Gereon Hüttmann

Abstract

Optical coherence tomography (OCT) images scattering tissues with 5 to 15 μm resolution. This is usually not sufficient for a distinction of cellular and subcellular structures. Increasing axial and lateral resolution and compensation of artifacts caused by dispersion and aberrations is required to achieve cellular and subcellular resolution. This includes defocus which limit the usable depth of field at high lateral resolution. OCT gives access the phase of the scattered light and hence correction of dispersion and aberrations is possible by numerical algorithms. Here we present a unified dispersion/aberration correction which is based on a polynomial parameterization of the phase error and an optimization of the image quality using Shannon’s entropy. For validation, a supercontinuum light sources and a costume-made spectrometer with 400 nm bandwidth were combined with a high NA microscope objective in a setup for tissue and small animal imaging. Using this setup and computation corrections, volumetric imaging at 1.5 μm resolution is possible. Cellular and near cellular resolution is demonstrated in porcine cornea and the drosophila larva, when computational correction of dispersion and aberrations is used. Due to the excellent correction of the used microscope objective, defocus was the main contribution to the aberrations. In addition, higher aberrations caused by the sample itself were successfully corrected. Dispersion and aberrations are closely related artifacts in microscopic OCT imaging. Hence they can be corrected in the same way by optimization of the image quality. This way microscopic resolution is easily achieved in OCT imaging of static biological tissues.
Original languageEnglish
Title of host publication2nd Canterbury Conference on OCT with Emphasis on Broadband Optical Sources
Editors A. Podoleanu , O. Bang
Number of pages7
Volume10591
PublisherSPIE
Publication date05.03.2018
Pages10591 - 10591 - 7
ISBN (Print)978-151061674-5
DOIs
Publication statusPublished - 05.03.2018
Event2nd Canterbury Conference on OCT with Emphasis on Broadband Optical Sources, University of KentCanterbury; United Kingdom; 6 September 2017 through 8 September 2017; Code
- University of Kent, Canterbury, United Kingdom
Duration: 06.09.201708.09.2017
Conference number: 135505

Research Areas and Centers

  • Academic Focus: Biomedical Engineering

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