China Radar Detects Mysterious Plasma Bubbles Over Pyramids, Raising Concerns About Satellite Communications
Chinese scientists have detected plasma bubbles over the Egyptian pyramids and Midway Islands using a new radar system, sparking significant interest. The radar, known as the Low Latitude Long Range Ionospheric Radar (LARID), was developed by the Chinese Academy of Sciences and installed last year. Plasma bubbles, which disrupt satellite communications and GPS by interfering with charged particles in the ionosphere, were observed on a large scale following a solar storm in November.
On August 27, Chinese researchers announced that this detection represents the largest ever recorded, with radar signals spanning from North Africa to the Pacific Ocean. This finding offers new insights into the formation and movement of these plasma bubbles, according to a report by the South China Morning Post.
Details of the LARID System
LARID, located on Hainan Island, has the capability to detect plasma bubbles up to 9,600 km away, covering regions from Hawaii to Libya. Unlike traditional radars, LARID uses powerful electromagnetic waves that bounce between the ground and the ionosphere, enabling it to track objects beyond the horizon. The system is equipped with 48 antennas and can make real-time adjustments.
Originally, LARID had a range of 3,000 km, but technological advancements have expanded its reach to 9,600 km. This radar is crucial for detecting plasma bubbles, which pose risks to modern technology and military systems. To enhance global detection capabilities, Chinese scientists have proposed establishing a network of similar radars in low-latitude regions worldwide.
Military and Technological Implications
China’s military is also utilizing advanced radars like LARID, which can detect stealth aircraft, indicating that even more sophisticated versions may be in development for defense purposes.