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Supplier: Edmund Optics Inc.
Description: illumination and increase transmission efficiency to greater than 90% from filament lamps, LEDs, arc lamps, and other sources. These Holographic UV Diffusers use a fused silica substrate and offer controlled, homogenous light distribution from the UV through the near-infrared
- Diffuser Shape: Circular
- Diffuser Type: Holographic Diffusers
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Supplier: Edmund Optics Inc.
Description: illumination and increase transmission efficiency to greater than 90% from filament lamps, LEDs, arc lamps, and other sources. These Holographic UV Diffusers use a fused silica substrate and offer controlled, homogenous light distribution from the UV through the near-infrared
- Diffuser Shape: Circular
- Diffuser Type: Holographic Diffusers
-
Supplier: Edmund Optics Inc.
Description: illumination and increase transmission efficiency to greater than 90% from filament lamps, LEDs, arc lamps, and other sources. These Holographic UV Diffusers use a fused silica substrate and offer controlled, homogenous light distribution from the UV through the near-infrared
- Diffuser Shape: Circular
- Diffuser Type: Holographic Diffusers
-
-
Supplier: Edmund Optics Inc.
Description: illumination and increase transmission efficiency to greater than 90% from filament lamps, LEDs, arc lamps, and other sources. These Holographic UV Diffusers use a fused silica substrate and offer controlled, homogenous light distribution from the UV through the near-infrared
- Diffuser Shape: Circular
- Diffuser Type: Holographic Diffusers
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Holographic diffuser for diffuse infrared wireless home networking
Subject terms: computer-generated holograms; diffuse infrared ; holographic dif- fusers ; wireless home networking.
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Light-shaping diffusers for indoor wireless infrared communications via a holographic approach
key-words: holographic optical elements, holographic diffusers , indoor infrared optical links, infrared wireless communications, multiplexed gratings, Bragg degeneracy effect.
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Broadband Infrared Access with a Multi-Spot Diffusing Configuration: Performance
M. R. Pakravan, E. Simova, and M. Kavehrad, “ Holographic dif- fusers for indoor infrared communication systems,” International Journal of Wireless Information Networks, Vol. 4, No. 4, pp. 259–274, 1997.
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Holographic diffuser design using a modified genetic algorithm
J. P. Yao, G. C. K. Chen, and T. K. Lim, “ Holographic diffuser for diffuse infrared wireless home networking,” Opt. Eng. 42 2 , 317– .
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Optical Wireless Systems Employing Adaptive Collaborative Transmitters in an Indoor Channel
[10] M. R. Pakravan, E. Simova, and M. Kavehrad, “ Holographic diffusers for indoor infrared communication systems,” Int. J. Wirel. Inf.
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Multispot diffusing configuration for wireless infrared access
[3] M. R. Pakravan, E. Simova, and M. Kavehrad, “ Holographic diffusers for indoor infrared communication systems,” Int. J. Wireless Inform.
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A review of communication-oriented optical wireless systems
MR Pakravan, E Simova, M Kavehrad, Holographic diffusers for indoor infrared communication systems.
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Optical Network Design and Modeling
M. R. Pakravan, E. Simova, and M. Kavehard, “ Holographic diffusers for indoor infrared communication systems,” Int. J. Wireless Inform.
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Effect of transmitter positions on received power and bandwidth in diffuse indoor optical wireless systems
ICC 95(2), 1163–1167 (1995) Pakravan, M.R., Simova, E., Kavehrad, M.: Holographic diffusers for indoor infrared communication sys- tems.
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Wireless Infrared Communication Systems and Networks
The paper by Pakravan, Simova, and Kavehrad is on holographic dif- fusers for indoor infrared communication systems.