A Faraday Cases travel case, configured to keep communications gear safe in transit from unfriendly electromagnetism.
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WASHINGTON, DC—A small company from Utah has developed a composite material that combines carbon fibers with a nickel coating. The result is an extremely lightweight electric-conducting material with the properties of plastic. And now that material is being used to create cases and computer enclosures that are essentially lightweight Faraday cages—containing electromagnetic radiation from digital devices and shielding them from electronic eavesdropping or electromagnetic pulse attacks. Ars got a brief hands-on with some of the materials at the Association of the United States Army expo this week.
The company, Conductive Composites, is now selling cases built with the Nickel Chemical Vapor Deposition (NiCVD) composite material through its Faraday Cases division. The cases range in size from suitcase-sized units for carrying smaller digital devices to wheeled portable enclosures that can house servers—providing what is essentially an EMP-shielded portable data center. The cases and enclosures are being marketed not just to the military but to consumers, corporations, and first responders as well.
The materials used in Faraday Cases can also be used to create ultra-lightweight antennas, satellite communications reflector dishes, and hundreds of other things that currently need to be made with conductive metal. And they could be a boon to anyone trying to prevent electronic eavesdropping—be it through active wireless bugs, radio retroreflectors used by nation-state intelligence agencies, or passive surveillance through anything from Wi-FI hacking to electromagnetic signals leaking from computer cables and monitors. And in some cases, they could make it possible to create the kind of secure spaces used by government agencies to prevent eavesdropping nearly anywhere.
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