Abstract
In modern wireless communications, digital information is firstly converted to analog signal by a digital-analog convertor, which is then mixed to high-frequency microwave to be transmitted through a series of devices including modulator, mixer, amplifier, filter, and antenna and is finally received by terminals via a reversed process. Although the wireless communication systems have evolved significantly over the past thirty years, the basic architecture has not been challenged. Here, we propose a method to transmit digital information directly via programmable coding metasurface. Since the coding metasurface is composed of ‘0' and ‘1' digital units with opposite phase responses, the digital information can be directly modulated to the metasurface with certain coding sequences and sent to space under the illumination of feeding antenna. The information, being modulated in radiation patterns of the metasurface, can be correctly received by multiple receivers distributed in different locations. This method provides a completely new architecture for wireless communications without using complicated digital-analog convertor and a series of active/passive microwave devices. We build up a prototype to validate the new architecture experimentally, which may find promising applications where information security is highly demanded.
Highlights
It has been a long time since human begins to communicate over a long distance
Because the radiated far field is dependent on the digital coding sequence, we use multiple receiving antennas pointing to different directions to obtain the transmitted digital information by reading the radiation pattern
The digital information can only be correctly recovered from the shape of radiation pattern instead of a single point, which implies that the far field captured at any single direction cannot recover the original digital information correctly
Summary
The history of telecommunication can date back to more than 5,000 years ago, including the use of smoke signals in China and drums in Africa. These ancient attempts rely on the vision and hearing of human beings, some of which are still in use today, such as sign language by traffic police and semaphore signal by voyage. With the invention of telegram and discovery of electromagnetic (EM) wave in the 19th century, the way people transmit message to far places has experienced revolutionary changes. The messages can be delivered with the speed of light through metal wire, or even air, using electricity or EM waves as the carriers
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