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Považay, Boris; Unterhuber, Angelika; Hermann, Boris; Sattmann, Harald; Arthaber, Holger; Drexler, Wolfgang (2006)
Languages: English
Types: Article
Subjects:
Ultrahigh axial resolution surface profiling as well as volumetric optical imaging based on time encoded optical coherence tomography in the frequency domain without any mechanical scanning element is presented. A frequency tuned broad bandwidth titanium sapphire laser is interfaced to an optical microscope (Axioskop 2 MAT, Carl Zeiss Meditec) that is enhanced with an interferometric imaging head. The system is equipped with a 640 x 480 pixel CMOS camera, optimized for the 800 nm wavelength tuning range for transmission and reflection measurements of a microscopic sample. Sample volume information over 1.3 x 1 x 0.2 mm
  • The results below are discovered through our pilot algorithms. Let us know how we are doing!

    • 3902 (2003). 9. A. Dubois, K. Grieve, G. Moneron, R. Lecaque, L. Vabre, and C. Boccara, "Ultrahigh-resolution full-field optical
    • coherence tomography," Appl. Opt. 43, 2874-2883 (2004). 10. Y. Yasuno, Y. Sutoh, M. Nakama, S. Makita, M. Roh, T. Yatagai, and M. Mori, "Spectral interferometric optical
    • coherence tomography with nonlinear beta-barium borate time gating," Opt. Lett. 27, 403-405 (2002). 11. "Spectroscopic techniques for far infra-red, submillimetre and millimetre waves," D. H. Martin, ed. (North-
    • Holland Publishing Co, Amsterdam, Netherlands, 1967), p. 400. 12. S. H. Yun, G. J. Tearney, J. F. de-Boer, N. Iftimia, and B. E. Bouma, "High-speed optical frequency-domain
    • imaging," Opt. Express 11 (2003). 13. A. F. Fercher, C. K. Hitzenberger, G. Kamp, and S. Y. El-Zaiat, "Measurement of intraocular distances by back-
    • scattering spectral interferometry," Opt. Commun. 117, 43-48 (1995). 14. B. Golubovic, B. E. Bouma, G. J. Tearney, and J. G. Fujimoto, "Optical frequency-domain reflectometry using
    • rapid wavelength tuning of a Cr4+:forsterite laser," Opt. Lett. 22, 1704-1706 (1997). 15. F. Lexer, C. K. Hitzenberger, A. F. Fercher, and M. Kulhavy, "Wavelength-tuning interferometry of intraocular
    • distances," Appl. Opt. 36, 6548-6562 (1997). 16. G. Hausler, and M. W. Linduer, ""Coherence radar" and "spectral radar"-new tools for dermatological diagnosis,"
    • J. Biomed. Opt. 3, 21-31 (1998). 17. R. Leitgeb, C. K. Hitzenberger, and A. F. Fercher, "Performance of fourier domain vs. time domain optical co-
    • herence tomography," Opt. Express 11, 889-894 (2003). 18. M. A. Choma, M. V. Sarunic, C. H. Yang, and J. A. Izatt, "Sensitivity advantage of swept source and Fourier
    • domain optical coherence tomography," Opt. Express 11, 2183-2189 (2003). 19. J. F. de Boer, B. Cense, B. H. Park, M. C. Pierce, G. J. Tearney, and B. E. Bouma, "Improved signal-to-noise
    • ratio in spectral-domain compared with time-domain optical coherence tomography," Opt. Lett. 28, 2067-2069
    • (2003). 20. M. Wojtkowski, R. Leitgeb, A. Kowalczyk, T. Bajraszewski, and A. F. Fercher, "In vivo human retinal imaging
    • by Fourier domain optical coherence tomography," J. Biomed. Opt. 7, 457-463 (2002). 21. W. Y. Oh, S. H. Yun, G. J. Tearney, and B. E. Bouma, "115 kHz tuning repetition rate ultrahigh-speed wave-
    • length-swept semiconductor laser," Opt. Lett. 30, 3159-3161 (2005). 22. R. A. Leitgeb, W. Drexler, A. Unterhuber, B. Hermann, T. Bajraszewski, T. Le, A. Stingl, and A. F. Fercher,
    • "Ultrahigh resolution Fourier domain optical coherence tomography," Opt. Express 12, 2156-2165 (2004). 23. M. Wojtkowski, V. J. Srinivasan, T. H. Ko, J. G. Fujimoto, A. Kowalczyk, and J. S. Duker, "Ultrahigh-
    • Opt. Express 12, 2404-2422 (2004). 24. B. Cense, and N. A. Nassif, "Ultrahigh-resolution high-speed retinal imaging using spectral-domain optical co-
    • herence tomography," Opt. Express 12, 2435-2447 (2004). 25. R. A. Leitgeb, L. Schmetterer, W. Drexler, A. F. Fercher, R. J. Zawadzki, and T. Bajraszewski, "Real-time as-
    • mography," Opt. Express 11, 3116-3121 (2003). 26. B. R. White, M. C. Pierce, N. Nassif, B. Cense, B. Hyle Park, G. J. Tearney, B. E. Bouma, T. C. Chen, and J. F.
    • herence tomography," Opt. Express 11, 3490 (2003). 27. N. A. Nassif, B. Cense, B. H. Park, M. C. Pierce, S. H. Yun, B. E. Bouma, G. J. Tearney, T. C. Chen, and J. F. de
    • optic nerve," Opt. Express 12, 367-376 (2004). 28. M. Wojtkowski, A. Kowalczyk, R. Leitgeb, and A. F. Fercher, "Full range complex spectral optical coherence
    • tomography technique in eye imaging," Opt. Lett. 27, 1415-1417 (2002). 29. A. Dubois, G. Moneron, K. Grieve, and A. C. Boccara, "Three-dimensional cellular-level imaging using full-field
    • optical coherence tomography," Phys. Med. Biol. 49, 1227-1234 (2004). 30. G. Moneron, A. C. Boccara, and A. Dubois, "Stroboscopic ultrahigh-resolution full-field optical coherence to-
    • mography," Opt. Lett. 30, 1351-1353 (2005). 31. B. Grajciar, M. Pircher, A. F. Fercher, and R. A. Leitgeb, "Parallel Fourier domain optical coherence tomography
    • for in vivo measurement of the human eye," Opt. Express 13, 1131-1137 (2005). 32. T. Endo, Y. Yasuno, F. Truffer, G. Aoki, S. Makita, M. Itoh, and T. Yatagai, "Line-field Fourier-domain optical
    • coherence tomography," Proceedings of the SPIE The International Society for Optical Engineering 5690, 168-
    • 173 (2005). 33. L. F. Yu, and M. K. Kim, "Full-color three-dimensional microscopy by wide-field optical coherence tomogra-
    • phy," Opt. Express 12, 6632-6641 (2004). 34. D. Yelin, B. E. Bouma, N. Iftimia, and G. J. Tearney, "Three-dimensional spectrally encoded imaging," Opt.
    • Lett. 28, 2321-2323 (2003). 35. A. Unterhuber, B. Považay, K. Bizheva, B. Hermann, H. Sattmann, A. Stingl, T. Le, M. Seefeld, R. Menzel, M.
    • Biol. 49, 1235-1246 (2004). 36. M.-K. Kim, "Tomographic three-dimensional imaging of a biological specimen using wavelength-scanning digi-
    • tal interference holography," Opt. Express 7, 305 (2000).
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