Beijing, Aug 10: In a major step towards building a hack-proof global quantum communication network, Chi has sent an unbreakable code from its quantum satellite to the Earth, marking realization of quantum key distribution technology for the first time.
The achievement based on experiments conducted with the world’s first quantum satellite, Quantum Experiments at Space Scale (QUESS), Xinhua news agency reported. Chi launched the world’s first quantum satellite, nickmed “Micius” after a 5th Century Chinese philosopher and scientist, on August 16, 2016.
Quantum key technology is used in quantum communications to make eavesdropping impossible and to perfectly secure the communication. The satellite sent quantum keys to ground stations in Xinglong, in north Chi’s Hebei province, and nshan, near Urumqi, capital of northwest Chi’s Xinjiang Uygur region, said Pan Jianwei, lead scientist of QUESS and an academician of the Chinese Academy of Sciences (CAS).
The communication distance between the satellite and the ground station varies from 645 km to 1,200 km, and the quantum key transmission rate from satellite to ground is up to 20 orders of magnitude more efficient than that expected using an optical fiber of the same length, he said. When the satellite flies over Chi, it provides an experiment window of about 10 minutes. During that time, the 300 kbit secure key can be generated and sent by the satellite, according to Pan.
“That, for instance, can meet the demand of making an absolute safe phone call or transmitting a large amount of bank data,” Pan said. “Satellite-based quantum key distribution can be linked to metropolitan quantum networks where fibres are sufficient and convenient to connect numerous users within a city over 100 km. We can thus envision a space-ground integrated quantum network, ebling quantum cryptography — most likely the first commercial application of quantum information — useful at a global scale,” Pan said. The establishment of a reliable and efficient space-to-ground link for faithful quantum state transmission paves the way to global-scale quantum networks, he added. (IANS)