-
[1] Jing J., Zhongping C., Optical coherence tomography, Biomedical Optics in Otorhinolaryngology, Springer New York, (2016), 529-543
-
[2] http://image.slidesharecdn.com/principleofopticalcoherencetom ography-141128122731-conversion-gate01/95/principles-ofoptical- coherence-tomography-3-638.jpg?cb=1417179259
-
[3] Huang D., Swanson E.A., Lin C.P. et al., Optical coherence tomography, SCI, 254 (1991), nr 5035, 1178–1181
-
[4] Chiba S., Tanno N., Backscattering Optical Heterodyne Tomography, prepared for the 14th Laser Sensing Symposium (1991)
-
[5] Fercher A.F., Hitzenberger C.K., Drexler W., et al., In Vivo Optical Coherence Tomography, Am J Ophthalmol, 116 (1993), nr 1, 113-114
-
[6] Walczyk A., Fryczkowski A.W., Optyczna koherentna tomografia w diagnostyce i monitorowaniu chorób siatkówki, Studia Medyczne, 22 (2011), 45– 49
-
[7] Drexler W., Optical Coherence Tomography: Technology and Applications, James G. Springer International publishing,Switzerland (2015)
-
[8] Wagenblast P.C., Ko T.H., Fujimoto J.G., et al., Ultrahighresolution optical coherence tomography with a diode-pumped broadband Cr3+:LiCAF laser, OPT EXPRESS, 12 (2004), nr 14, 3257
-
[9] Thomas D., Duguid G., Optical coherence tomography - a review of the principles and contemporary uses in retinal investigation, Eye, 18 (2004), nr 6, 561–570
-
[10] http://www.if.pwr.edu.pl/~kurzynowski/Studenckie/Wybrane%20 zagadnienia/Tomografia%20optyczna.pdf.