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Items: 1 to 20 of 76

1.

Correction of geometric and refractive image distortions in optical coherence tomography applying Fermat's principle.

Westphal V, Rollins A, Radhakrishnan S, Izatt J.

Opt Express. 2002 May 6;10(9):397-404.

PMID:
19436373
3.

Optical distortion correction in optical coherence tomography for quantitative ocular anterior segment by three-dimensional imaging.

Ortiz S, Siedlecki D, Grulkowski I, Remon L, Pascual D, Wojtkowski M, Marcos S.

Opt Express. 2010 Feb 1;18(3):2782-96. doi: 10.1364/OE.18.002782.

PMID:
20174107
4.

Correction of distortions in optical coherence tomography imaging of the eye.

Podoleanu A, Charalambous I, Plesea L, Dogariu A, Rosen R.

Phys Med Biol. 2004 Apr 7;49(7):1277-94.

PMID:
15128205
5.

Axial ultrasound B-scans of the entire eye with a 20-MHz linear array: correction of crystalline lens phase aberration by applying Fermat's principle.

Mateo T, Chang A, Mofid Y, Pisella PJ, Ossant F.

IEEE Trans Med Imaging. 2014 Nov;33(11):2149-66. doi: 10.1109/TMI.2014.2332519. Epub 2014 Jun 26.

PMID:
24988589
7.

Optical coherence tomography for quantitative surface topography.

Ortiz S, Siedlecki D, Remon L, Marcos S.

Appl Opt. 2009 Dec 10;48(35):6708-15. doi: 10.1364/AO.48.006708.

PMID:
20011011
8.

Fermat's principle of least time predicts refraction of ant trails at substrate borders.

Oettler J, Schmid VS, Zankl N, Rey O, Dress A, Heinze J.

PLoS One. 2013;8(3):e59739. doi: 10.1371/journal.pone.0059739. Epub 2013 Mar 20.

9.

Optic disc measurements in myopia with optical coherence tomography and confocal scanning laser ophthalmoscopy.

Leung CK, Cheng AC, Chong KK, Leung KS, Mohamed S, Lau CS, Cheung CY, Chu GC, Lai RY, Pang CC, Lam DS.

Invest Ophthalmol Vis Sci. 2007 Jul;48(7):3178-83.

PMID:
17591887
10.

Magnification characteristics of the Optical Coherence Tomograph STRATUS OCT 3000.

Sanchez-Cano A, Baraibar B, Pablo LE, Honrubia FM.

Ophthalmic Physiol Opt. 2008 Jan;28(1):21-8. doi: 10.1111/j.1475-1313.2007.00527.x.

PMID:
18201332
11.

Correction of image distortions in endoscopic optical coherence tomography based on two-axis scanning MEMS mirrors.

Wang D, Liang P, Samuelson S, Jia H, Ma J, Xie H.

Biomed Opt Express. 2013 Sep 6;4(10):2066-77. doi: 10.1364/BOE.4.002066. eCollection 2013 Sep 6.

12.

Model based 3D segmentation and OCT image undistortion of percutaneous implants.

Müller O, Donner S, Klinder T, Dragon R, Bartsch I, Witte F, Krüger A, Heisterkamp A, Rosenhahn B.

Med Image Comput Comput Assist Interv. 2011;14(Pt 3):454-62.

PMID:
22003731
13.

Quasi-telecentric optical design of a microscope-compatible OCT scanner.

Hu Z, Rollins A.

Opt Express. 2005 Aug 22;13(17):6407-15.

PMID:
19498654
14.

Modelling the normal retinal nerve fibre layer thickness as measured by Stratus optical coherence tomography.

Hougaard JL, Ostenfeld C, Heijl A, Bengtsson B.

Graefes Arch Clin Exp Ophthalmol. 2006 Dec;244(12):1607-14.

PMID:
16788824
15.

Diffractive element design for resonant scanner angular correction: a beam retardation approach.

Khoury J, Haji-saeed B, Morath CP, Woods CL, Sengupta SK, Kierstead J.

Appl Opt. 2006 Nov 10;45(32):8177-85.

PMID:
17068559
16.

Paired-angle-rotation scanning optical coherence tomography forward-imaging probe.

Wu J, Conry M, Gu C, Wang F, Yaqoob Z, Yang C.

Opt Lett. 2006 May 1;31(9):1265-7.

PMID:
16642080
17.

Optical coherence tomography for in situ monitoring of laser corneal ablation.

Bagayev SN, Gelikonov VM, Gelikonov GV, Kargapoltsev ES, Kuranov RV, Razhev AM, Turchin IV, Zhupikov AA.

J Biomed Opt. 2002 Oct;7(4):633-42.

PMID:
12421132
18.

Principle of least wave change.

Abramson N.

J Opt Soc Am A. 1989 May;6(5):627-9.

PMID:
2723846
19.

Optical coherence tomography: advanced technology for the endoscopic imaging of Barrett's esophagus.

Li XD, Boppart SA, Van Dam J, Mashimo H, Mutinga M, Drexler W, Klein M, Pitris C, Krinsky ML, Brezinski ME, Fujimoto JG.

Endoscopy. 2000 Dec;32(12):921-30.

PMID:
11147939
20.

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