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Items: 1 to 20 of 575

1.

Dispersion compensation in high-speed optical coherence tomography by acousto-optic modulation.

Xie T, Wang Z, Pan Y.

Appl Opt. 2005 Jul 10;44(20):4272-80.

PMID:
16045215
2.

Low-noise broadband light generation from optical fibers for use in high-resolution optical coherence tomography.

Wang Y, Tomov I, Nelson JS, Chen Z, Lim H, Wise F.

J Opt Soc Am A Opt Image Sci Vis. 2005 Aug;22(8):1492-9.

PMID:
16134843
3.

Optical coherence tomography system with no high-precision scanning stage and stage controller.

Lo YL, Kuo CI, Chuang CH, Yan ZZ.

Appl Opt. 2004 Jul 20;43(21):4142-9.

PMID:
15291056
4.

Ultrahigh-resolution optical coherence tomography with a fiber laser source at 1 microm.

Lim H, Jiang Y, Wang Y, Huang YC, Chen Z, Wise FW.

Opt Lett. 2005 May 15;30(10):1171-3.

PMID:
15945143
6.

Signal-to-noise ratio analysis of all-fiber common-path optical coherence tomography.

Li X, Han JH, Liu X, Kang JU.

Appl Opt. 2008 Sep 20;47(27):4833-40.

PMID:
18806839
7.

High-speed, high-resolution optical coherence tomography retinal imaging with a frequency-swept laser at 850 nm.

Srinivasan VJ, Huber R, Gorczynska I, Fujimoto JG, Jiang JY, Reisen P, Cable AE.

Opt Lett. 2007 Feb 15;32(4):361-3.

PMID:
17356653
8.

Fiber-optic-bundle-based optical coherence tomography.

Xie T, Mukai D, Guo S, Brenner M, Chen Z.

Opt Lett. 2005 Jul 15;30(14):1803-5.

PMID:
16092351
9.

High-resolution frequency-domain second-harmonic optical coherence tomography.

Su J, Tomov IV, Jiang Y, Chen Z.

Appl Opt. 2007 Apr 1;46(10):1770-5.

PMID:
17356620
10.

Homodyne en face optical coherence tomography.

Yaqoob Z, Fingler J, Heng X, Yang C.

Opt Lett. 2006 Jun 15;31(12):1815-7.

PMID:
16729080
11.

Real-time, ultrahigh-resolution, optical coherence tomography with an all-fiber, femtosecond fiber laser continuum at 1.5 microm.

Nishizawa N, Chen Y, Hsiung P, Ippen EP, Fujimoto JG.

Opt Lett. 2004 Dec 15;29(24):2846-8.

PMID:
15645800
12.

Image restoration method based on Hilbert transform for full-field optical coherence tomography.

Na J, Choi WJ, Choi ES, Ryu SY, Lee BH.

Appl Opt. 2008 Jan 20;47(3):459-66.

PMID:
18204734
13.
14.

Fiber-based polarization-sensitive Mueller matrix optical coherence tomography with continuous source polarization modulation.

Jiao S, Todorović M, Stoica G, Wang LV.

Appl Opt. 2005 Sep 10;44(26):5463-7.

PMID:
16161660
15.

Ultrahigh-resolution imaging of human donor cornea using full-field optical coherence tomography.

Akiba M, Maeda N, Yumikake K, Soma T, Nishida K, Tano Y, Chan KP.

J Biomed Opt. 2007 Jul-Aug;12(4):041202.

PMID:
17867791
16.
17.

Minimization of geometric-beam broadening in a grating-based time-domain delay line for optical coherence tomography application.

Jiang Z, Zhu Q, Piao D.

J Opt Soc Am A Opt Image Sci Vis. 2007 Dec;24(12):3808-18.

PMID:
18059934
18.

In-fiber common-path optical coherence tomography using a conical-tip fiber.

Tan KM, Mazilu M, Chow TH, Lee WM, Taguichi K, Ng BK, Sibbett W, Herrington CS, Brown CT, Dholakia K.

Opt Express. 2009 Feb 16;17(4):2375-84.

PMID:
19219141
19.

Design and processing of high-density single-mode fiber arrays for imaging and parallel interferometer applications.

Scepanovic M, Castillo JE, Barton JK, Mathine D, Kostuk RK, Sato A.

Appl Opt. 2004 Jul 20;43(21):4150-6.

PMID:
15291057
20.

Dispersion control with a Fourier-domain optical delay line in a fiber-optic imaging interferometer.

Lee KS, Akcay AC, Delemos T, Clarkson E, Rolland JP.

Appl Opt. 2005 Jul 1;44(19):4009-22.

PMID:
16004048

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