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Items: 1 to 20 of 588

1.
2.

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
3.

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
4.

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
5.

Advances in broad bandwidth light sources for ultrahigh resolution optical coherence tomography.

Unterhuber A, Povazay B, Bizheva K, Hermann B, Sattmann H, Stingl A, Le T, Seefeld M, Menzel R, Preusser M, Budka H, Schubert Ch, Reitsamer H, Ahnelt PK, Morgan JE, Cowey A, Drexler W.

Phys Med Biol. 2004 Apr 7;49(7):1235-46.

PMID:
15128201
6.

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
7.

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
8.

Simultaneous dual-band optical coherence tomography in the spectral domain for high resolution in vivo imaging.

Cimalla P, Walther J, Mehner M, Cuevas M, Koch E.

Opt Express. 2009 Oct 26;17(22):19486-500. doi: 10.1364/OE.17.019486.

PMID:
19997169
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.

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
11.

Combined multiphoton microscopy and optical coherence tomography using a 12-fs broadband source.

Tang S, Krasieva TB, Chen Z, Tromberg BJ.

J Biomed Opt. 2006 Mar-Apr;11(2):020502.

PMID:
16674173
12.

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
13.

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
14.

Micromotor endoscope catheter for in vivo, ultrahigh-resolution optical coherence tomography.

Herz PR, Chen Y, Aguirre AD, Schneider K, Hsiung P, Fujimoto JG, Madden K, Schmitt J, Goodnow J, Petersen C.

Opt Lett. 2004 Oct 1;29(19):2261-3.

PMID:
15524374
16.

Comment on "Optical-fiber-based Mueller optical coherence tomography".

Park BH, Pierce MC, de Boer JF.

Opt Lett. 2004 Dec 15;29(24):2873-4; discussion 2875-7.

PMID:
15645809
17.
18.

Phase-referenced Doppler optical coherence tomography in scattering media.

Pedersen CJ, Yazdanfar S, Westphal V, Rollins AM.

Opt Lett. 2005 Aug 15;30(16):2125-7.

PMID:
16127931
19.

Myocardial tissue characterization based on a polarization-sensitive optical coherence tomography system with an ultrashort pulsed laser.

Sun CW, Wang YM, Lu LS, Lu CW, Hsu IJ, Tsai MT, Yang CC, Kiang YW, Wu CC.

J Biomed Opt. 2006 Sep-Oct;11(5):054016.

PMID:
17092165
20.

Picosecond anti-Stokes generation in a photonic-crystal fiber for interferometric CARS microscopy.

Andresen ER, Keiding SR, Potma EO.

Opt Express. 2006 Aug 7;14(16):7246-51.

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