Chinese scientists develop ‘invisibility circuit’ for stealth planes

SHANGHAI: A team of Chinese researchers have made a breakthrough in stealth plane technology that could be so significant even local military sources say it should be kept out of the public realm. The team released the technical and design details of an “invisibility circuit” they claim has the potential to help aircraft trick the best early warning systems in use today South China Morning Post said on Monday.

The researchers are affiliated with the Huazhong University of Science and Technology in Wuhan in central China’s Hubei province.

They published their paper in last month’s Journal of Applied Physics, run by the American Institute of Physics.

“It sounds like something that should be kept in the drawer,” said Professor Huang Jun, a military stealth technology researcher at the School of Aeronautic Science and Engineering at Beihang University. Huang was not involved in the research.

“This will be a breakthrough if it works as they claim,” he said.

“That will be really bad news for early warning radars,” he added.

According to their paper, they have created a multi-layer electrical circuit that can “trap” microwaves at ultra-high frequencies, thus confusing radar systems and enabling aircraft to sneak past them.

All radars work by detecting “echoes” of radio waves, which are bounced off a target. If the waves are absorbed by the new circuit, the target – in this case an aero plane – would disappear from radar screens.

What is unique about the latest finding is that the material used to create the circuit would be almost impossibly thin. At less than one centimeter, it is just a tenth the size of similar products developed by overseas competitors. This means it could be used to coat planes for the first time, pundits say.

Stealth planes including the F-22 and F-35 used by the US military are not quite as evasive as they sound, according to Huang, who said they can be spotted by advanced radar systems even from a considerable distance.

Agencies

 

 

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