China launches pioneering quantum satellite

CCTV News

China launched its Quantum Science Satellite on Monday afternoon (Tuesday morning Beijing time) to perform pioneering experiments in quantum communication, quantum entanglement, and test the fundamental laws of quantum mechanics at a space scale.

The launch took place at 17:40 UTC Monday – 01:40 Tuesday Beijing time – from the Jiuquan Satellite Launch Centre in the Gobi Desert, with a Long March 2D rocket sending the 620 kilogram (1,367 pound) satellite to a 600 kilometer (373 mile) orbit at an inclination of 97.79 degrees.

The Quantum Science Satellite will attempt an unprecedented experiment to see if the spooky property of quantum entanglement can operate at long distances by sending entangled photons from the satellite to two ground stations separated by about 1,200 kilometers (746 miles).

Abbreviated to QSS (Quantum Science Satellite), or the better known as QUESS (Quantum Experiments at Space Scale), the satellite will also test the possibilities of communication via quantum ‘teleportation’, using an entangled pair of photons.

If the satellite can help securely transmit quantum information between ground stations, it could have huge implications for cryptography.

QUESS will be the world’s first quantum communications satellite, but other countries have plans of their own, having recognized the possibilities for encryption.

The satellite’s payloads include a quantum key communicator, quantum entanglement emitter, quantum entanglement source, quantum experiment controller and processor and a laser communicator, which were developed by the National Space Science Center in Beijing under the Chinese Academy of Sciences. It is designed to operate for two years.

Payloads for China's QUESS quantum satellite (NSSC).

Payloads for China’s QUESS quantum satellite (NSSC).

The mission is the brainchild of Pan Jianwei of the Acadey, China’s quantum space pioneer. The experiments will also involve collaboration with the Austrian Academy of Sciences in Vienna.

The day before launch, the satellite was nicknamed “Mozi” (墨子号), referring to the ancient Chinese philosopher Mozi, born around 470 BCE.

QUESS is the third of four Chinese space science satellites that will be launched within a year of each other, marking the fruition of a Chinese Academy of Sciences strategic space science program launched in 2011.

Implemented by the National Space Science Center, two missions – the DAMPE (Wukong) Dark Matter probe in December, and April’s Shijian-10 retrievable microgravity space science satellite – have already been launched.

The fourth, the Hard X-ray Modulation Telescope, has recently passed factory tests and will launch late this year.

It will observe black holes, neutron stars and other phenomena based on their X-ray and gamma ray emissions over a four-year lifetime.

China has produced a national roadmap for space science for 2016-2030 and is already working on the next batch of missions, including the “SMILE” (Solar wind Magnetosphere Ionosphere Link Explorer) project in collaboration with Europe.

SMILE is one of five new space probes to study a range of Earth, solar, and deep space phenomena now in development.

China’s space science program announced expected new funding in March of around 5.9 billion yuan ($910 million) over the period of the country’s new Five-Year Plan (2016-2020).

“The funding means we are likely to launch 15-20 scientific satellites, if not more, by 2030,” Director-general of the National Space Science Center Wu Ji said.

Story by Global Times.

  • Kamal Rajpal

    The assumption that the an electron-spin qubit (quantum bit) can be both spin-up and spin-down at the same time is based on an incorrect concept of Electron Spin. http://vixra.org/pdf/1306.0141v3.pdf

    The assumption that a quantum switch can be ‘ON and OFF’ at the same time is based on an incorrect concept of Linear Polarization. http://vixra.org/pdf/1303.0174v5.pdf