Raymond K. Kostuk scite author profile

Holographic gratings formed in thick phenanthrenquinone- (PQ-) doped poly(methyl methacrylate) (PMMA) can be made to have narrowband spectral and spatial transmittance filtering properties. We present the design and performance of angle-multiplexed holographic filters formed in PQ-PMMA at 488 nm and reconstructed with a LED operated at approximately 630 nm. The dark delay time between exposure and the preillumination exposure of the polymer prior to exposure of the holographic area are varied to optimize the diffraction efficiency of multiplexed holographic filters. The resultant holographic filters can enhance the performance of four-dimensional spatial-spectral imaging systems. The optimized filters are used to simultaneously sample spatial and spectral information at five different depths separated by 50 microm within biological tissue samples.

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Energy collection efficiency of holographic planar solar concentrators

Castro

Zhang

Myer

et al. 2010

Appl. Opt.

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We analyze the energy collection properties of holographic planar concentrator systems. The effects of solar variation on daily and annual energy collection are evaluated. Hologram diffraction efficiency, polarization, crosstalk in cascaded elements, and constraints imposed by the radiance theorem, as well as solar illumination characteristics, are considered. A planar holographic solar concentrator configuration is designed and modeled to maximize energy collection efficiency during the course of a year without the need for tracking. Results indicated that nearly 50% of the available energy illuminating hologram areas can be collected by photovoltaic cells without the need of tracking.

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Investigation of the effect of finite grating size on the performance of guided-mode resonance filters

Boye¹,

Kostuk²

2000

Appl. Opt.

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We evaluate the effect of finite aperture gratings on the spectral and efficiency characteristics of guided-mode resonance filters. A simple analytical model based on the attenuation properties of the waveguide and a fixed length of the grating aperture is developed. The results from this model are in good agreement with experimental filters formed with subwavelength period photoresist gratings and solgel waveguides.

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Low-density parity check codes and iterative decoding for long-haul optical communication systems

Vasić

Djordjević

Kostuk

2003

J. Lightwave Technol.

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A forward-error correction)FEC) scheme based on low-density parity check (LDPC) codes and iterative decoding using belief propagation in code graphs is presented in this paper. We show that LDPC codes provide a significant system performance improvement with respect to the state-of-the-art FEC schemes employed in optical communications systems. We present a class of structured codes based on mutually orthogonal Latin rectangles. Such codes have high rates and can lend themselves to very low-complexity encoder/decoder implementations. The system performance is further improved by a code design that eliminates short cycles in a graph employed in iterative decoding. Index Terms-Balanced incomplete block designs (BIBDs), belief propagation algorithm, forward-error correction (FEC), long-haul transmission, low-density parity check(LDPC) codes, optical communications.

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Holographic edge-illuminated polymer Bragg gratings for dense wavelength division optical filters at 1550 nm

2003

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We discuss the use of holographic photopolymer materials for use as dense wavelength division multiplexing filters in the C-band of the optical communication spectrum. An edge-illuminated hologram configuration is described that effectively extends the grating length to achieve narrow band filters operating near 1550 nm in photopolymers that are 100-200-microm thick. This configuration enables the formation of apodized and cascaded filter systems. Rouard's method is used to examine the properties of both apodization and cascaded gratings and indicates the potential for narrow spectral bandwidths (< 0.2 nm) and high side-lobe suppression (<-- 30 dB). Initial experimental results with a commercially available photopolymer are provided that verify narrowband spectral-transmittance properties (< 0.6 nm) and the ability to apodize the index profile. The primary limitation of the design is the absorption of existing photopolymer materials. Optimizing the polymer chemistry for filter design at 1550 nm may solve this problem.

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Roadmap on holography

Sheridan¹,

Kostuk²,

Gil³

et al. 2020

J. Opt.

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Raymond K. Kostuk

Model and Validation of Single-Axis Tracking With Bifacial PV

Effective-medium theory of zeroth-order lamellar gratings in conical mountings

Optimization of multiplexed holographic gratings in PQ-PMMA for spectral-spatial imaging filters

Energy collection efficiency of holographic planar solar concentrators

Investigation of the effect of finite grating size on the performance of guided-mode resonance filters

Low-density parity check codes and iterative decoding for long-haul optical communication systems

Holographic edge-illuminated polymer Bragg gratings for dense wavelength division optical filters at 1550 nm

Roadmap on holography

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