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Resources

Ofidium’s founder and Chief Technology Officer, Arthur Lowery, is a pioneer of optical OFDM and has been a leading optical innovator for over two decades. Professor Lowery is a sought-after presenter at conferences worldwide. Here are details of selected recent presentations and journal articles.

Reducing Cyclic Prefix Overhead in Optical OFDM Systems

A. J. Lowery, European Conference on Optical Communications, (ECOC 2009), Vienna, Austria, 2009
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Fiber Nonlinearity Compensation for CO-OFDM Systems with Periodic Dispersion Maps

Liang B. Du, A. J. Lowery, Optical Fiber Communications (OFC 2009), San Diego, California 2009
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Low Sample Rate Transmitter for Direct-Detection Optical OFDM

Brendon J. C. Schmidt, Arthur J. Lowery and Liang B. Du, Optical Fiber Communications (OFC 2009), San Diego, California, 2009
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100 Gbit/s Transmission using Single-Band Direct-Detection Optical OFDM

Brendon J. C. Schmidt, Zuraidah Zan, Liang B. Du and Arthur J. Lowery, Postdeadline: Optical Fiber Communications (OFC 2009), San Diego, 2009
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Impact of PMD in Single-Receiver & Polarization-Diverse Direct-Detection Optical OFDM

Brendon J. C. Schmidt, Arthur James Lowery, and Jean Armstrong, J. Lightwave Technology, vol. 27, No. 14, , pp. 2792-2799, July 15, 2009
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Experimental Demonstrations of Electronic Dispersion Compensation for Long-Haul Transmission Using Direct-Detection
Optical OFDM

B. Schmidt, A.J. Lowery and Jean Armstrong, J. Lightwave Technology, Volume 26, Issue 1, Jan.1, 2008, pp. 196 - 203.

Optical Orthogonal Frequency-Division Multiplexing: The Story So Far

A. J. Lowery, Presented at NiCT EXAT2008 Conference, Tokyo, Japan, November 2008
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Optical OFDM

A. J. Lowery, Invited Talk, Conference on Lasers and Electro-Optics (CLEO 2008), San Jose, May 2008

Improved nonlinearity precompensation for long-haul high-data-rate transmission using coherent optical OFDM

Liang B. Du and A. J. Lowery, Opt. Express 16(24), 19920-19925, 2008
Abstract

 

Orthogonal-Frequency-Division Multiplexing for Optical Dispersion Compensation

A. J. Lowery, and Jean Armstrong, Invited paper, Optical Fiber Communications (OFC 2008), Anaheim, 2008

Fiber nonlinearity precompensation for long-haul links using direct-detection optical OFDM

L. B. Du and A. J. Lowery, Opt. Express 16,
6209-6215, 2008
Abstract

 

Improving sensitivity and spectral efficiency in direct-detection OFDM lightwave systems

A. J. Lowery, Optical Fiber Communications (OFC 2008), San Dieg0, 2008

Laser RIN and linewidth requirements for direct detection optical OFDM
Zuraidah Zan, Malin Premaratne and A. J. Lowery, Conference on Lasers and Electro-Optics (CLEO 2008), San Jose, May 2008

 

Amplified-spontaneous noise limit of optical OFDM lightwave systems

A. J. Lowery, Opt. Express 16, 860-865, 2008
Abstract

Orthogonal frequency division multiplexing for adaptive dispersion compensation in long haul WDM systems
A. J. Lowery, L. Du, and J. Armstrong, Journal of Lightwave Technology, January 2007
Abstract

 

Adaptation of Orthogonal Frequency Division Multiplexing, OFDM, to Compensate Impairments in Optical Transmission Systems

A. J. Lowery, Invited Tutorial, European Conference on Optical Communications (ECOC 2007), Berlin

Calculation of power limit due to fiber nonlinearity in optical OFDM systems

A. J. Lowery, S. Wang, and M. Premaratne, Opt. Express 15, 13282-13287, 2007
Abstract

 

Fiber nonlinearity pre- and post-compensation for long-haul optical links using OFDM

A. J. Lowery, Opt. Express 15, 12965-12970, 2007
Abstract

Fiber nonlinearity mitigation in optical links that use OFDM for dispersion compensation

A. J. Lowery, "," Photonics Technology Letters, IEEE, vol. 19, pp. 1556-1558, 2007

 

Orthogonal frequency division multiplexing
for dispersion compensation of long-haul optical systems

 A. J Lowery and J. Armstrong, Optics Express. Vol. 14, 2006, pp. 2079-2084, 2006
Abstract

     
Unique technology

Ofidium is unique in applying OFDM to optical data transmission for communications

   
Increased performance

Optical OFDM data transmission is extremely robust to dispersion impairments over long distances