The detection of these bubbles above the pyramids is particularly remarkable because of the great distance.
Scientists who used a system radar in China they spotted mysterious phenomena above the Pyramids of Giza in Egyptrevealing strange “bubbles” that could have significant effects on satellite communications.
The these new findings come to add to the long-standing intrigue surrounding the pyramidswhich have always been a source of fascination due to the many theories and mysteries surrounding their construction and what they might hide.
Chinese Radar Spots Plasma Bubbles Over The Pyramids Of Gizahttps://t.co/njv04JyBYU
— IFLScience (@IFLScience) September 11, 2024
Researchers from Chinese Academy of Sciences they used it LARID radar – a low-latitude, long-range radar – to detect equatorial plasma bubbles (EPBs) above the pyramids. These EPBs, which exist in the upper atmosphere, consist of warm pockets of gas that form at low latitudes. In early November 2023, a solar storm caused the formation of these plasma bubbles, which appeared on China’s radar from as far away as North Africa and the central Pacific.
The detection of these bubbles above the pyramids it is particularly remarkable because of its great distance. The Chinese radar picked up signals from nearly 5,000 kilometers away, making China the first country in the world to be able to detect EPBs from such a distance using radar technology.
The plasma bubbles themselves aren’t unusual, but scientists aren’t yet entirely sure how they behave or the extent of their effects on satellite communications and GPS signals. These bubbles can extend to a width of hundreds of kilometers and their presence can cause significant disturbances. The measurements obtained by the LARID radar allowed the researchers to track the movements of the bubbles in real time, providing new insights into their behavior and the potential to intervene in space technologies.
The radar works by interpreting signals reflected off the ionospheric plasma, which allows it to track anomalies caused by plasma bubbles.
This discovery opens up new possibilities for understanding Earth’s upper atmosphere and mitigating the dangers these plasma bubbles pose to modern technology. .
