Journal ArticleDOI
Fourier transform spectrometer with a self-scanning photodiode array.
TLDR
A Fourier transform spectrometer with no mechanical moving parts is described, which may be built in a relatively small size and with moderate cost and may lead to the application to time-resolved spectroscopy.Abstract:
A Fourier transform spectrometer with no mechanical moving parts is described. The interferogram is generated spatially by a triangle common-path interferometer and is detected by a self-scanning photodiode array. The spectrum is reconstructed by fast Fourier transform in a microcomputer system. Since no moving part is used and a common-path interferometer is employed for simple, stable, and easy alignment, this spectrometer may be built in a relatively small size and with moderate cost. The self-scanning photodiode array as a multichannel detector may lead this spectrometer to the application to time-resolved spectroscopy. The optical throughput is much larger than that of a multichannel dispersion-type spectrometer, because in the system neither a slit nor an aperture is necessary. The emission spectra of a low pressure mercury lamp and a LED are shown to demonstrate the system performance.read more
Citations
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Journal ArticleDOI
Low-coherence reflectometry for stationary lateral and depth profiling with acousto-optic deflectors and a CCD camera.
TL;DR: A new optical low-coherence reflectometer for depth and lateral scanning without moving parts is described, accomplished by an acousto-optic deflector for lateral scanning and temporal-coherent gating for depth resolution.
Journal ArticleDOI
Stationary depth-profiling reflectometer based on low-coherence interferometry
A. Knüttel,Joseph M. Schmitt +1 more
TL;DR: In this article, a new optical reflectometer based on low-coherence interferometry that employs no moving parts was proposed, and depth profiling up to a maximum free-space distance of 300 μm (150 μm depth) was achieved with a spatial resolution of 23 μ.
Journal ArticleDOI
Performance limits of stationary Fourier spectrometers
TL;DR: In this article, the theoretical performance limits of stationary Fourier spectrometers without mechanical scanning are analyzed and compared with the performance of a scanning Fourier Spectrometer employing uncollimated light are most favorable.
Patent
Planar waveguide liquid crystal variable retarder
TL;DR: In this paper, a waveguide optical device having a guide member for propagation of light in a longitudinal direction is described. And the guide path has an effective index of refraction greater than the effective indexes of refractive index of the isolation zones.
Journal ArticleDOI
A static fourier-transform spectrometer based On wollaston prisms
TL;DR: In this article, a static Fourier transform spectrometer based on Wollaston prisms was designed to produce an interferogram in the spatial domain which was recorded using a 2D camera.
References
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Journal ArticleDOI
Self-scanned photodiode array: a multichannel spectrometric detector
Yair Talmi,Raymond W. Simpson +1 more
TL;DR: The performance characteristics of a 1024-element self-scanned photodiode array, related to its use as a multichannel spectrometric detector, including spectral and temporal response, blooming, geometric accuracy, noise sources, dynamic range, signal integration and spectral as well as spatial resolution are described.
Journal ArticleDOI
Fourier-transform spectroscopy using holographic imaging without computing and with stationary interferometers
George W. Stroke,A. Funkhouser +1 more
TL;DR: Fourier transform spectroscopy using holographic imaging without computing and with stationary interferometers is described in this paper, where the authors present a method to perform Fourier transform analysis using a holographic image without computing.
Journal ArticleDOI
Superresolution of Fourier transform spectroscopy data by the maximum entropy method.
TL;DR: The maximum entropy method (MEM) is applied to the interferogram data obtained using the technique of Fourier transform spectroscopy for estimating its spectrum with a resolution far exceeding the value set by the spectrometer.
Journal ArticleDOI
Holographic Spectra Using a Triangle Path Interferometer
Kunio Yoshihara,Atsuo Kitada +1 more
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Fourier-transform spectroscopy using holographic imaging without computing and with stationary interferometers
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