Fourier Domain OCT
Relevant papers:
Fourier Domain OCT patent 20.03.1993
P78 google G. Häusler, J. M. Herrmann und J. Neumann. „Verfahren zur Ermittlung der Entfernung und der Streuintensität von streuenden Punkten“, P4309056, Deutsches Patent Anmeldedatum 20.03.1993
Our earliest publication about FCOCT after the patent submission
G. Häusler, J. Herrmann, M. Lindner, R. Ringier. „Examination of volume scatterers by the „spectral radar“ – an optical method for fast structure analysis in volume scatterers by shot coherence interferometry“, Annual Report, Chair for Optics, Physikalisches Institut er Universität Erlangen-Nürnberg: (1994)
See pdf: AR94 Examination of volume scatterers by the spectral radar
most cited papers
Z 110. Häusler und M. W. Lindner. „Coherence Radar and Spectral Radar – New Tools for Dermatological Diagnosis“, Journal of Biomed. Optics Vol 3 No 1 (1998) 21-31,
SPIE DitialLibrary. DOWNLOAD PAPER
T 104. G. Häusler. „Range Sensing of the first, the second, and the third kind“ International Conference on Optical Metrology and Nanotechnology, Proc. of the EOS Topical Meetings Digest Series: Vol. 4, p. 18-19, 27-30 March 1994, Engelberg, Switzerland
J 90. G. Häusler, J. M. Herrmann, V. Höfer, M. W. Lindner, P. Pavlicek und R. Ringler. „A Fibre-Optical Implementation of Range Sensors, based on the „Spectral Radar“, Proceedings of the EOS Topical Meeting „Free Space Micro-Optical Systems“, Engelberg (1996) 48-49
T 94a M. Bail, G. Häusler, J. M. Herrmann, M. W. Lindner und R. Ringler. „Optical coherence tomography with the „Spectral Radar“ – Fast optical analysis in volume scatterers by short coherence interferometry“, Proc. of the European Biomedical Optics Week, Vienna, 7-10 September, SPIE 2925 (1996) 298-303
T 95. A. Eigensee, G. Häusler, J. M. Herrmann und M. W. Lindner, “A new method of short-coherence interferometry in human skin (in vivo) and in solid volume scatterers“, Proc. of the European Biomedical Optics Week, Vienna, 7-10 September, SPIE 2925 (1996) 169-178
Event: BiOS Europe ’96, 1996, Vienna, Austria
T 97. M. Bail, A. Eigensee, G. Häusler, J. M. Herrmann und M. W. Lindner, “3D-imaging of human skin – optical in vivo Tomography and Topology by short coherence interferometry“, SPIE 2981, (1997) 64-75
Event: Coherence Domain Optical Methods in Biomedical Science and Clinical Applications, (22 May 1997); BiOS ’97, Part of Photonics West, 1997, San Jose, CA, United States
Z 110. G. Häusler und M. W. Lindner. „Coherence Radar and Spectral Radar – New Tools for Dermatological Diagnosis“, Journal of Biomed. Optics Vol 3 No 1 (1998) 21-31 SPIEDigitalLibrary
T 115. P. Andretzky, M.W. Lindner, J.M. Herrmann, A. Schultz, M. Konzog, F. Kiesewetter und G. Häusler, “Optical Coherence Tomography by „spectral radar“: dynamic range estimation and in vivo measurements of skin“, Proc. SPIE 3567 (1998) 78-87
T 116. P. Andretzky, M. W. Lindner, G. Bohn, J. Neumann, M. Schmidt, G. Ammon und G. Häusler, “Modifications of the coherence radar for in vivo profilometry in dermatology“, Proc. SPIE 3567 (1998) 88-96
T 122. P. Ettl, G. Bohn, C. Horneber, P. Andretzky, M. Konzog, M. Knauer, P. Pavlicek und G. Häusler, „Coherence Radar, Spectral Radar, Dispersion Radar“: Modifications of Broad Band Interferometry for High Accuracy 3D-Measurements in Medicine and Industry. Proc. of ODIMAP II, pp 36- 41, 2nd Topical Meeting on Optoelectronic Distance/Displacement, Measurements and Applications, University of Pavia, Italy, May 20-22, 1999.