Delay and dispersion characteristics of a frequency-domain optical delay line for scanning interferometry

A.V. Zvyagin; E.D.J. Smith; David Sampson

doi:10.1364/JOSAA.20.000333

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Journal article

Delay and dispersion characteristics of a frequency-domain optical delay line for scanning interferometry

A.V. Zvyagin, E.D.J. Smith and David Sampson

Journal of the Optical Society of America A: Optics and Image Science, and Vision, Vol.20(2), pp.333-341

2003

DOI: https://doi.org/10.1364/JOSAA.20.000333

Abstract

Coherent light

Diffraction gratings

Frequency domain analysis

Mirrors

Tomography

Optical delay lines

Interferometry

article

interferometry

optics

theoretical model

Interferometry

Models

Theoretical

Optics

The reflective frequency-domain optical delay line employing a diffraction grating, a lens, and a tiltable mirror has emerged as a device particularly suitable for interferometry and optical coherence tomography. The device is comprehensively described, both theoretically and experimentally, in the context of interferometry. The variations of phase and group delay produced by the device as well as its dispersive properties are described and demonstrated experimentally.

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Title: Delay and dispersion characteristics of a frequency-domain optical delay line for scanning interferometry
Creators: A.V. Zvyagin
E.D.J. Smith
David Sampson
Publication Details: Journal of the Optical Society of America A: Optics and Image Science, and Vision, Vol.20(2), pp.333-341
Publisher: OSA - The Optical Society
Number of pages: 9
Date published: 2003
Date submitted: 01/06/2018
Identifiers: 99516458302346
Academic Unit: FEPS Central Faculty Admin; FHMS Central Faculty Admin
Resource Type: Journal article

Delay and dispersion characteristics of a frequency-domain optical delay line for scanning interferometry

Abstract

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