D. Hillmann, T. Bonin, C. Luhrs, G. Franke, M. Hagen-Eggert, and P. Koch,
Common approach for compensation of axial motion artifacts in swept-source OCT and dispersion in Fourier-domain OCT, Opt Express , vol. 20, no. 6, pp. 6761--6776, 2012.
Bibtex: BibTeX
@article{Hillmann2012,
   author={Hillmann, D.  and Bonin, T.  and Luhrs, C.  and Franke, G.  and Hagen-Eggert, M.  and Koch, P.  and Huttmann, G. },
   title={{{C}ommon approach for compensation of axial motion artifacts in swept-source {O}{C}{T} and dispersion in {F}ourier-domain {O}{C}{T}}},
   journal={Opt Express},
   year={2012},
   volume={20},
   number={6},
   pages={6761--6776},
   month={Mar}
}
Dierck Hillmann, Tim Bonin, Christian Luhrs, Gesa Franke, Martin Hagen-Eggert, and Peter Koch,
Common approach for compensation of axial motion artifacts in swept-source OCT and dispersion in Fourier-domain OCT, Opt. Express , vol. 20, no. 6, pp. 6761-6776, 2012.
Bibtex: BibTeX
@article{Hillmann2012,
   author = {Hillmann, Dierck and Bonin, Tim and Lührs, Christian and Franke, Gesa and Hagen-Eggert, Martin and Koch, Peter and Hüttmann, Gereon},
   title = {Common approach for compensation of axial motion artifacts in swept-source OCT and dispersion in Fourier-domain OCT},
   journal = {Opt. Express},
   volume = {20},
   number = {6},
   pages = {6761-6776},
   abstract = {Swept-source optical coherence tomography (SS-OCT) is sensitive to sample motion during the wavelength sweep, which leads to image blurring and image artifacts. In line-field and full-field SS-OCT parallelization is achieved by using a line or area detector, respectively. Thus, approximately 1000 lines or images at different wavenumbers are acquired. The sweep duration is identically with the acquisition time of a complete B-scan or volume, rendering parallel SS-OCT more sensitive to motion artifacts than scanning OCT. The effect of axial motion on the measured spectra is similar to the effect of non-balanced group velocity dispersion (GVD) in the interferometer arms. It causes the apparent optical path lengths in the sample arm to vary with the wavenumber. Here we propose the cross-correlation of sub-bandwidth reconstructions (CCSBR) as a new algorithm that is capable of detecting and correcting the artifacts induced by axial motion in line-field or full-field SS-OCT as well as GVD mismatch in any Fourier-domain OCT (FD-OCT) setup. By cross-correlating images which were reconstructed from a limited spectral range of the interference signal, a phase error is determined which is used to correct the spectral modulation prior to the calculation of the A-scans. Performance of the algorithm is demonstrated on in vivo full-field SS-OCT images of skin and scanning FD-OCT of skin and retina.},
   keywords = {Image reconstruction-restoration
Optical coherence tomography},
   year = {2012}
}
M. Hagen-Eggert, and P. Koch,
Analysis of the signal fall-off in spectral domain optical coherence tomography systems, Joseph, A. Izatt and James, G. Fujimoto and Valery, V. Tuchin, Eds. SPIE, 2012. pp. 82131K.
Datei: 12.910921
Bibtex: BibTeX
@inproceedings{Hagen-Eggert,
   author = {Hagen-Eggert, M. and Koch, P. and Huttmann, G.},
   title = {Analysis of the signal fall-off in spectral domain optical coherence tomography systems},
   editor = {Joseph, A. Izatt and James, G. Fujimoto and Valery, V. Tuchin},
   publisher = {SPIE},
   volume = {8213},
   pages = {82131K},
url = {https://doi.org/10.1117/12.910921},
   year = { 2012}

}
M. Hagen-Eggert, D. Hillmann, and P. Koch,
Diffusion-sensitive Fourier-domain optical coherence tomography, James, G. Fujimoto and Joseph, A. Izatt and Valery, V. Tuchin, Eds. SPIE, 2011. pp. 78892B.
Datei: 12.873815.short
Bibtex: BibTeX
@inproceedings{Hagen-Eggert2011,
   author = {Hagen-Eggert, M. and Hillmann, D. and Koch, P. and Huttmann, G.},
   title = {Diffusion-sensitive Fourier-domain optical coherence tomography},
   editor = {James, G. Fujimoto and Joseph, A. Izatt and Valery, V. Tuchin},
   publisher = {SPIE},
   volume = {7889},
   pages = {78892B},

}
Tim Bonin, Martin Hagen-Eggert, Gesa Franke, and Peter Koch,
Ultra highspeed in-vivo Fourier domain full-field OCT of the human retina, James, G. Fujimoto and Joseph, A. Izatt and Valery, V. Tuchin, Eds. SPIE, 2011. pp. 788906.
Bibtex: BibTeX
@inproceedings{Bonin2011,
   author = {Bonin, Tim and Hagen-Eggert, Martin and Franke, Gesa and Koch, Peter and Huttmann, Gereon},
   title = {Ultra highspeed in-vivo Fourier domain full-field OCT of the human retina},
   editor = {James, G. Fujimoto and Joseph, A. Izatt and Valery, V. Tuchin},
   publisher = {SPIE},
   volume = {7889},
   pages = {788906},
year = { 2011}

}
T. Bonin, G. Franke, M. Hagen-Eggert, and P. Koch,
In vivo Fourier-domain full-field OCT of the human retina with 1.5 million A-lines/s., .... Opt Lett. 2010 Oct 15;35(20):3432-4. doi: 10.1364/OL.35.003432., 2010.
Bibtex: BibTeX
@book{Bonin2010,
   author = {Bonin, T. and Franke, G. and Hagen-Eggert, M. and Koch, P. and Huttmann, G.},
   title = {In vivo Fourier-domain full-field OCT of the human retina with 1.5 million A-lines/s},
   publisher = {Opt Lett. 2010 Oct 15;35(20):3432-4. doi: 10.1364/OL.35.003432.},
   abstract = {In vivo full-field (FF) optical coherence tomography (OCT) images of human retina are presented by using a rapidly tunable laser source in combination with an ultra-high-speed camera. Fourier-domain FF-OCT provided a way to increase the speed of retinal imaging by parallel acquisition of A-scans. Reduced contrast caused by cross talk was observed only below the retinal pigment epithelium. With a 100Hz sweep rate, FF-OCT was fast enough to acquire OCT images with acceptable motion artifacts. FF-OCT allows ultrafast retinal imaging, boosting image speed by a lack of moving parts and a considerably higher irradiation power.},
  year={2010}
}