Fourier domain mode locking at 1050 nm for ultra-high-speed optical coherence tomography of the human retina at 236,000 axial scans per second

R. Huber; D. C. Adler; V. J. Srinivasan; J. G. Fujimoto

doi:10.1364/OL.32.002049

Fourier domain mode locking at 1050 nm for ultra-high-speed optical coherence tomography of the human retina at 236,000 axial scans per second

R. Huber, D. C. Adler, V. J. Srinivasan, J. G. Fujimoto

Institut für Biomedizinische Optik

219 Zitate (Scopus)

Abstract

A Fourier domain mode-locked (FDML) laser at 1050 nm for ultra-high-speed optical coherence tomography (OCT) imaging of the human retina is demonstrated. Achievable performance, physical limitations, design rules, and scaling principles for FDML operation and component choice in this wavelength range are discussed. The fiber-based FDML laser operates at a sweep rate of 236 kHz over a 63 nm tuning range, with 7 mW average output power. Ultra-high-speed retinal imaging is demonstrated at 236,000 axial scans per second. This represents a speed improvement of ~10texttimes over typical high-speed OCT systems, paving the way for densely sampled volumetric data sets and new imaging protocols.

Originalsprache	Englisch
Zeitschrift	Opt. Lett.
Jahrgang	32
Ausgabenummer	14
Seiten (von - bis)	2049-2051
Seitenumfang	3
DOIs	https://doi.org/10.1364/OL.32.002049
Publikationsstatus	Veröffentlicht - 01.07.2007

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10.1364/OL.32.002049

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title = "Fourier domain mode locking at 1050 nm for ultra-high-speed optical coherence tomography of the human retina at 236,000 axial scans per second",

abstract = "A Fourier domain mode-locked (FDML) laser at 1050nm for ultra-high-speed optical coherence tomography (OCT) imaging of the human retina is demonstrated. Achievable performance, physical limitations, design rules, and scaling principles for FDML operation and component choice in this wavelength range are discussed. The fiber-based FDML laser operates at a sweep rate of 236kHz over a 63nm tuning range, with 7mW average output power. Ultra-high-speed retinal imaging is demonstrated at 236,000 axial scans per second. This represents a speed improvement of ∼10× over typical high-speed OCT systems, paving the way for densely sampled volumetric data sets and new imaging protocols.",

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AU - Huber, R.

AU - Adler, D. C.

AU - Srinivasan, V. J.

AU - Fujimoto, J. G.

PY - 2007/7/1

Y1 - 2007/7/1

N2 - A Fourier domain mode-locked (FDML) laser at 1050nm for ultra-high-speed optical coherence tomography (OCT) imaging of the human retina is demonstrated. Achievable performance, physical limitations, design rules, and scaling principles for FDML operation and component choice in this wavelength range are discussed. The fiber-based FDML laser operates at a sweep rate of 236kHz over a 63nm tuning range, with 7mW average output power. Ultra-high-speed retinal imaging is demonstrated at 236,000 axial scans per second. This represents a speed improvement of ∼10× over typical high-speed OCT systems, paving the way for densely sampled volumetric data sets and new imaging protocols.

AB - A Fourier domain mode-locked (FDML) laser at 1050nm for ultra-high-speed optical coherence tomography (OCT) imaging of the human retina is demonstrated. Achievable performance, physical limitations, design rules, and scaling principles for FDML operation and component choice in this wavelength range are discussed. The fiber-based FDML laser operates at a sweep rate of 236kHz over a 63nm tuning range, with 7mW average output power. Ultra-high-speed retinal imaging is demonstrated at 236,000 axial scans per second. This represents a speed improvement of ∼10× over typical high-speed OCT systems, paving the way for densely sampled volumetric data sets and new imaging protocols.

U2 - 10.1364/OL.32.002049

DO - 10.1364/OL.32.002049

M3 - Journal articles

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JO - Opt. Lett.

JF - Opt. Lett.

IS - 14

ER -

Fourier domain mode locking at 1050 nm for ultra-high-speed optical coherence tomography of the human retina at 236,000 axial scans per second

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