Electromagnetic waves with a wavelength from one to 10 millimeters, which corresponds to spectrum from 30 to 300 GHz. Millimeter wave applications include communications, radar, radio astronomy, ...

Millimeter-wave technology is becoming less expensive and easier to deploy, making it a candidate for many wireless connections, including backhaul, personal area networks, LANs and even mobile ...

Millimeter waves occupy the frequency spectrum from 30 GHz to 300 GHz. They’re found in the spectrum between microwaves (1 GHz to 30 GHz) and infrared (IR) waves, which is sometimes known as extremely ...

An ASU professor and his team are attempting to increase the capability of millimeter wave communication systems by using machine learning. Millimeter wave communication systems becoming more ...

Researchers develop a proof-of-concept millimeter wave radar sensor that can detect extremely small vibrations and movements. Researchers at the University of California, Davis, have developed a proof ...

Bit by bit, the physicists have filled the gaps in the electromagnetic spectrum, which runs from X rays at the short end, through light and heat, to miles-long radio waves at the other. One big gap ...

If you want to see through objects, you could call Superman — or ask some engineers for help. A team of engineers led by University of Delaware professor Dennis Prather, a recent inductee to the ...

Verizon’s early rollout of millimeter-wave 5G is producing high speeds and throughput, but the high-frequency spectrum isn’t suitable for widespread coverage, Verizon CEO Hans Vestberg said today. One ...

This week, a new startup, Starry, announced it would bring gigabit-speed internet access to consumers, without data caps, at a price that is equal or less than your average broadband plan. It also ...