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Dear Members, I would like to announce that Dr. Richard Ridgway,
Senior Research Leader from Battelle Corporation will be our guest speaker at the 802.15 IGTHz Wednesday
July 16th 8-10am morning secession. Dr. Ridgway will be providing a presentation on
the exciting work being conducted by Battelle researchers on optically
modulated 10Gg/s terahertz devices and their field tests and experiments over
800 meter transmission paths. This presentation and subject matter will I believe
open up a new perspective terahertz applications and approach. The talk is open
for all and especially for anyone interested in extreme high frequency
broadband wireless area and backhaul applications. Please see below Dr Ridgways presentation
abstract and his bio. David Britz Vice Chair IG THz Millimeter-wave
Photonics for High Data Rate Wireless Communication Systems Presentation
to IEEE
802.15 THz Interest Group July
16, 2008 Richard
W. Ridgway, Ph.D. Senior
Research Leader Battelle 614-424-5140 ridgway@xxxxxxxxxxxx Abstract: For
over 20 years Battelle has been involved in the development of integrated
optical components and subsystems that use the electrooptic effect to provide
the interaction between microwave signals and optical signals for communications
and signal processing applications. Recently that effort has focused on
the generation and modulation of millimeter waves for wireless
communications. In these systems, Battelle uses photonic components,
including laser diodes, electrooptic modulators, arrayed-waveguide grating
optical filters, and optical amplifiers, to generate and modulate the
millimeter-waves. Modulating the signal in the optical domain allows the
system to take advantage of the high data rate capability of optical modulators
used for telecommunications. This allows the modulation of a 94 GHz
signal at data rates in excess of 10 Gb/s. Such data rates would be
difficult to achieve using millimeter-wave components. A high speed
photodiode is used to convert the doubly modulated optical signal to a
modulated millimeter-wave signal. The talk will describe Battelle’s
efforts to develop this system and will provide operational characteristics of
the system, including carrier frequencies at and above 100 GHz and data rates at
and above 10 Gb/s. Field test results will also be described. The
talk will conclude with a discussion of a road map to higher carrier
frequencies and higher data rates. Biographical Statement: Dr. Ridgway serves as Senior Research Leader of Integrated Photonics in
Battelle’s Electronics and Avionics Systems Product Line. He joined
Battelle in September 1979 and has been involved in the development of
integrated optical components for over 25 years. This includes the use of
electrooptic-based optical components for the generation, modulation, detection
and processing of microwave and millimeter-wave signals. From September
2001 to January 2007, he served as Chief Technology Officer of Optimer
Photonics, Inc., a spin-out company of Battelle focused on commercializing
electrooptic waveguide technology developed at Battelle. Dr. Ridgway has
over 20
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Attachment:
Battelle Millimeter.doc
Description: Battelle Millimeter.doc