The new circulator has the potential to double the useful bandwidth in wireless communications Researchers at the Cockrell School of Engineering at The University of Texas at Austin have ach... Read more
The supersensitive device holds promise for medical imaging and quantum networks Physicists have found a way to detect faint radio waves and convert them directly into signals that can be tr... Read more
Invisibility cloaking is no longer the stuff of science fiction: Two researchers in The Edward S. Rogers Sr. Department of Electrical & Computer Engineering have demonstrated an effectiv... Read more
TAU researcher develops surprising tool to measure our changing climate The ionosphere, one of the regions of the upper atmosphere, plays an important role in global communications. Ionized... Read more
The findings could dramatically alter the scale of medical devices implanted in the human body. A team of engineers at Stanford has demonstrated the feasibility of a super-small, implantable... Read more
Could change the way we interact with everyday objects The newspaper-style printing of electronic equipment has led to a cost-effective device that could change the way we interact with ever... Read more
Electromagnetic interference is not just a problem in electric and hybrid drives To enable radio reception in electric vehicles, manufacturers must install filters and insulate cables, since... Read more
He demonstrated a potential way to squeeze 100 times more bandwidth out of existing frequencies As more people stream video to their mobile devices, wireless bandwidth is becoming an increas... Read more
Although scientists have long known that tantalizing whiffs of energy radiate from WiFi and other radio frequency waves, it’s only recently that the alternative energy industry has started t... Read more
In general, low-frequency radio waves are well-suited for long-range communications, while high-frequency waves are needed to achieve high capacity. Reliable, fast communications “Ther... Read more
Spiralling radio waves could revolutionize telecommunications. The bandwidth available to mobile phones, digital television and other communication technologies could be expanded enormously... Read more
Image via Wikipedia Einstein@Home, a distributed computing project searching primarily for gravitational waves, has found its first pulsar A newfound stellar remnant some 17,000 light-years... Read more
Image via Wikipedia MATT REYNOLDS, an assistant professor in the electrical and computer engineering department at Duke University, wears other hats, too — including that of co-founder of tw... Read more