• DocumentCode
    83521
  • Title

    Common-Path Optical Coherence Tomography Using a Conical-Frustum-Tip Fiber Probe

  • Author

    Ji-Hyun Kim ; Jae-Ho Han ; Jichai Jeong

  • Author_Institution
    Dept. of Brain & Cognitive Eng., Korea Univ., Seoul, South Korea
  • Volume
    20
  • Issue
    2
  • fYear
    2014
  • fDate
    March-April 2014
  • Firstpage
    8
  • Lastpage
    14
  • Abstract
    We demonstrated an in-fiber common-path optical coherence tomography (OCT) system using a conical-frustum-tip fiber probe. The probe had a circularly truncated conical shape to increase reflection of reference light while preserving focus without additional lens components. We analyzed the intensity of reference light back-reflected from the probe using a ZEMAX simulation, and the optimal height of the conical-frustum lens was 1.0 μm. Compared to various other types of conical-frustum-tip fiber probes, the probe in this paper showed the best lateral resolution with a relatively high reflectivity. Experimental results are compared to simulations. This conical-frustum-tip probe provided a 3.7 times larger reflectivity than a conventional conical lens. Due to the increased reflection, the signal-to-noise ratio (SNR) of an OCT image was enhanced by up to 5.6 dB. Furthermore, the lateral resolution was less than 4.4 μm as verified by B-scan profiles of a resolution target card. This probe can be utilized as a forward-viewing endoscopic probe to enhance OCT image quality through an increase in SNR, sensitivity, a small size, and effective focusing without additional lens components.
  • Keywords
    lenses; light coherence; optical fibres; optical tomography; reflectivity; B-scan profiles; OCT image; ZEMAX simulation; circularly truncated conical shape; common-path optical coherence tomography; conical-frustum lens; conical-frustum-tip fiber probe; forward-viewing endoscopic probe; light reflection; reflectivity; signal-to-noise ratio; size 1 mum; Focusing; Image resolution; Lenses; Optical fiber sensors; Optical fibers; Probes; Reflectivity; Optical imaging; biomedical imaging; optical fiber sensors;
  • fLanguage
    English
  • Journal_Title
    Selected Topics in Quantum Electronics, IEEE Journal of
  • Publisher
    ieee
  • ISSN
    1077-260X
  • Type

    jour

  • DOI
    10.1109/JSTQE.2013.2277817
  • Filename
    6579663