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  • Applying Photonics to Electronic Warfare Challenges

Science and Technology

Applying Photonics to Electronic Warfare Challenges

By John Toon | September 20, 2016 • Atlanta, GA

Photonics in defense2
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Image shows a 1 to 40GHz, full duplex transmission, fiber optic link prototype utilizing GTRI custom packaging and ruggedization. (Credit: Rob Felt)

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Photonics, the technology that helps drive today’s telecommunications systems, offers major advances in the area of signal transmission. Researchers at the Georgia Tech Research Institute (GTRI) are adapting optical techniques from the photonics telecom arena to enhance U.S. electronic warfare (EW) capabilities.

Optical approaches provide greatly increased frequency coverage and long distance low-loss transfer of analog signals when compared to traditional radio frequency (RF) systems, resulting in substantial performance improvements. Chip-scale integrated photonics also allows for the potential of extensive reductions in size, weight and power (SWaP) needs.

“U.S. warfighters may soon face adversary systems that use signals outside the traditional EW spectrum, which creates a need for broadband frequency responses beyond the capabilities of conventional RF and digital equipment,” said Chris Ward, a senior research engineer who leads GTRI's EW photonics development program. “Photonic advances originating in the telecom world have given us the ability to provide EW, radar and other military systems with unique and advanced performance capabilities.”

Photonics technology uses photons – particles of light – to carry wideband signals used in communications, radar and other applications over optical fiber efficiently over large distances. Photonics-based systems transmit data with far less signal loss than conventional metallic conductors, and encounter little or no electromagnetic interference while propagating through fiber.

Moreover, optical technology can be described as “frequency agnostic” – meaning a fiber-optic cable can carry signals of virtually any RF frequency, given the constraints of the electrical-to-optical and optical-to-electrical conversion process. Electric, current-carrying cables of conventional RF and digital systems can only function within narrow bandwidths on the order of gigahertz (GHz). Most optical components operate with more than 1,000 times the bandwidth, on the order of terahertz (THz).

For example, Ward explained, a user needing to process signals over 100 gigahertz (GHz) of bandwidth can easily find an optical carrier that functions at a center frequency of 193 THz, meaning that only 0.05 percent of total system bandwidth is used. By contrast, RF components using metal conductors typically consume 10 percent to 20 percent of available bandwidth per signal.

“There is an enormous benefit to operating in the optical domain.” he said. “It is typically very difficult for digital and RF electronics to cover a large spectrum instantaneously – they have to switch between multiple components in order to cover a variety of bandwidths. The engineering challenges involved in extending these traditional approaches are becoming increasingly difficult in terms of costs, schedules and SWaP. In contrast, the ability for a single optical component to perform its function over a large spectrum decreases system complexity and enables modular architectures that can be used to address future requirements.”

Today, Ward explained, sophisticated commercial off-the-shelf (COTS) photonic components, capable of cutting-edge data/signal transport, are widely available. GTRI researchers are using these devices in the development of novel EW architectures that have strong performance advantages.

Ward and his team have produced optical transceivers that can interface readily with existing digital or RF EW equipment. Employing novel photonic integrated circuits (PICs), researchers are building increased performance and flexibility into EW components. The team is currently focused on packaging PICs for integration into existing EW systems.

“There are several challenges in adapting photonics technology for highly specialized EW needs,” Ward said. “But the benefits in terms of the ability to effectively counter future threats, along with substantial cost reduction and greatly improved SWaP factors, make optical approaches highly promising for these applications.”

Research News
Georgia Institute of Technology
177 North Avenue
Atlanta, Georgia 30332-0181 USA

Media Relations Contacts: John Toon (404-894-6986) (jtoon@gatech.edu) or Ben Brumfield (404-385-1933) (ben.brumfield@comm.gatech.edu).

Writer: Rick Robinson

Additional Photos

  • Photonics in defense
     

    Photonics in defense

    Technology development for next-generation RF systems is driven by spectrum access and size, weight, and power (SWaP). Fiber optic cabling allows hundreds of GHz of electrical bandwidth to be distributed through multiple kilometers while experiencing less attenuation (0.2dB/km) than a meter of coaxial cable. Coaxial and waveguide cabling also weighs almost 10 times as much as fiber, which is critical on airborne or seaborne vehicles where RF front-ends may be physically dislocated from transmitter components. (Credit: Rob Felt, Georgia Tech)

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  • Photonics at GTRI
     

    Photonics at GTRI

    The telecommunications industry has driven the performance, reliability, and cost of photonic technology into the critical path for future RF system and subsystem design. Researchers at GTRI, including Senior Research Engineer Chris Ward (shown here), are developing the institutional knowledge to craft engineering rules, requirements, and specifications which exploit photonic technology, in conjunction with digital and RF components, to gain a competitive advantage for current and future DoD systems. (Credit: Rob Felt, Georgia Tech)

    Download Image

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John Toon

Research News

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