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China to launch world’s first ‘cold’ atomic clock in space ... and it’ll stay accurate for a billion

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Wow! This is an achievement of some sort!

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China to launch world’s first ‘cold’ atomic clock in space ... and it’ll stay accurate for a billion years

Device should lose only a second in one billion years

Stephen Chen
PUBLISHED : Thursday, 15 September, 2016, 8:02am
UPDATED : Thursday, 15 September, 2016, 10:07am

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The clock is ticking for the world’s most accurate working time piece, the NIST-F2 atomic clock operated by America’s National Institute of Standards and Technology in Boulder, Colorado.

And fittingly, the challenge is coming from the country that invented the mechanical clock almost 1,300 years ago – China.

The US clock is a large, heavy machine, standing more than 2.5 metres high, with support facilities filling an entire room, but it is so accurate that it would lose just one second in 300 million years.

In contrast, the Cold Atomic Clock in Space (Cacs) recently developed by researchers in Shanghai can easily be lifted by two people and would fit comfortably in the boot of a car. But it is expected to be three times more accurate than NIST-F2, losing only a second in one billion years.

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It will be able to beat the US clock because it will have escaped the negative grip of gravity.

“It is the world’s first cold atomic clock to operate in space ... it will have military and civilian applications,” said Professor Xu Zhen, a scientist involved with the Cacs project.

China’s Beidou satellite navigation network currently provides less precise guidance than the US GPS system, but Xu said that using Cacs as a time reference in space would give a “significant boost” to Beidou’s performance.

Cacs, several thousand times more accurate than the clocks used in GPS satellites, will start its journey when Tiangong-2, China’s second space laboratory, is launched from the Jiuquan Satellite Launch Centre in Inner Mongolia Thursday night . Other instruments on Tiangong-2, some of them world firsts, include the Gamma-ray Burst Polarimeter (Polar), capable of studying the most powerful explosions in the universe, quantum communication devices, and a “forge” to generate extremely high heat for the creation of new materials such as armour in a microgravity environment. A “bodyguard” satellite will fly around the space lab to protect it from potentially deadly collisions with space debris.

Scientists said the launch of Tiangong-2 would mark China’s transition from a follower in space research to a pioneer.

Xu, a researcher with the Chinese Academy of Sciences’ Shanghai Institute of Optics and Fine Mechanics, said the space atomic clock project was a good example of that transition.

The idea of sending an atomic clock into space was first proposed by European scientists more than 20 years ago. But the European Space Agency’s Atomic Clock Ensemble in Space project (Aces) has faced numerous delays and, according to its latest schedule, won’t be mounted on the International Space Station until next year.

Scientists in the United States also started their own space cold atomic clock project but it was cancelled due to federal government budget cuts, prompting some of the American researchers to switch to the European project.

An atomic clock runs on the principle that electrons orbiting the nucleus of an atom “leap” from one energy state to another under certain frequencies of microwave radiation. The atom could therefore serve as an extremely reliable “timekeeper” when generating and maintaining microwaves at a stable frequency for time reference.

The official definition of a second, for instance, is 9,192,631,770 cycles of the microwave that would cause an atom of the element caesium to swing between two energy states.

A cold atomic clock is more accurate than a normal – or “hot” – atomic clock because it uses a laser to slow down the atom from a speed of several hundred metres per second to just one centimetre per second. Because the atom is the timekeeper, a slower moving one lessens the likelihood of counting errors and results in a more accurate clock.

But atoms are also “distracted” by gravity, and the low level of gravity in space should be able to further improve the accuracy of cold atomic clocks.

In a paper last year, the Chinese team said that the ground prototype of Cacs had caught up with the performance of Pharao, the competing clock in Europe’s Aces project.

Unlike Pharao, which used atoms of caesium, the Chinese clock used rubidium atoms, which could provide “superior performance” in terms of accuracy and reliability, they said in the paper.

German scientists have built an even more accurate atomic clock, using atoms of ytterbium, that should not lose a second in several billion years, but that is an experimental device, not used for real-world applications.

The Chinese clock still had room for improvement, admitted researchers led by Professor Liu Liang. For instance, Cacs produced more background noise than its European counterpart, which might affect the quality of the signals it broadcast.

But getting the machine into space first would put the Chinese team a significant step ahead of its overseas competitors, Liu said.

None of the scientists involved with the Aces project responded to requests for comment on the launch of China’s cold atomic clock.

Xu said he was not surprised by the lack of response.

“When I heard of the Aces project, I was still a student,” he said. “Now we’ve scooped them, it is understandable that some might feel a bit sour.”

The scientists were not to blame for the delay, Xu said, adding “it’s their government.”

The launch of Tiangong-2 has also been delayed, with the mission originally scheduled for last year.

But a space scientist involved with the Tiangong programme said the Chinese space industry and related research programmes had received sufficient, stable financial support from a centralised government with the ability and resources to “execute”, minimising the length of the delay.

The funding, speed and efficiency of Chinese space research projects had drawn an increasing number of overseas scientists to join research projects on the mainland, said Professor Wu Bobing, a researcher with the Institute of High Energy Physics in Beijing.

Wu was a lead scientist in the development of Polar, Tiangong-2’s gamma-ray-burst detector, which was built by scientists from China, Switzerland and Poland.

He said gamma-ray bursts were the most violent and mysterious events in the universe after the big bang itself. It was believed they were produced by the enormous explosion before the creation of a black hole, and it had been confirmed that some very short gamma-ray bursts were generated by the merging of two neutron stars, but scientists were still not sure what caused the more frequently seen long gamma-ray bursts that could last up to a day.

It would Polar’s mission to find the answers, Wu said.

The box-like machine will be fitted outside Tiangong-2, with its back to the earth so that it can catch the signals of explosions billions of light years away.

Wu said Polar was a product international collaboration, with the European scientists contributing many important components such as electronic circuits and some detection sensors.

He had also been involved in other Chinese space research projects featuring the participation of foreign scientists and said that while Polar was the only scientific instrument built through such an international effort, “there will be many more of these kind of projects in the coming years.”

By international standards, Tiangong-2 is still a small, primitive space facility.

It has room for only three astronauts, and its small size limits the amount of scientific equipment it can carry. And while it has a robotic arm for repairs, it is still in the experimental stage while similar technology has been used on the International Space Station for decades.

China plans to launch a full-sized international space station by around 2020, drawing on the lessons and experience from the Tiangong space labs, the first of which was launched five years ago.

“We are still a turtle in a race with rabbits,” said a mainland space scientists involved with China’s manned space project.
 
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Great, world’s first ‘cold’ atomic clock in space!

Just wonder how will the western media to describe the achievement though nothing can be expected. Maybe another example will be released out that this kind of equipment is already in lab of US decades ago.:o::D
 
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China Exclusive: World's first space cold atom clock
(Xinhua) 15:53, September 19, 2016

The cylinder-shaped black object bears no resemblance to any ordinary clock, but it is one of the most advanced timepieces ever.

It was sent to space with the Space Laboratory of China's Tiangong-2 on Thursday, becoming the first ever cold atom clock working in space.

"This clock is so accurate that it should not lose one second in 30 to 300 million years in space," says Liu Liang, professor and director of the Key Laboratory of Quantum Optics, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences.

Unlike ordinary clocks, the timekeeping device is based on atomic physics.

And unlike the most atomic clocks, this clock uses more advanced "cold atom" technology, ensuring its ultra precision.

A mechanical watch loses almost one second a day; a quartz watch loses about one second every 10 days; the hydrogen atomic clock loses about one second over millions of years; the cold atom clock exceeds all in accuracy, Liu says.

Scientists attribute its accuracy to the microgravity environment in space as well as the coldness of the atoms the clock uses.

Under microgravity conditions, the cold atoms, pushed by lasers, perform a uniform motion in a straight line. By observing their performance, scientists get more precise atomic clock signal than under the gravity conditions on Earth.

Moreover, the laser cooling technology helps to eliminate the influence of atomic thermal motion on the clock's performance.

"Though molecules and atoms can't be seen in a room, they are actually moving at high-speed, and the speed is equivalent to temperature," Liu explains.

"We use laser cooling technology to slow down the atoms to a temperature that a refrigerator could never reach, so they nearly stay still," Liu says. "By observing the almost static atoms we make our measurements more precise."

Scientists believe that putting such a clock in space will help set a time standard to synchronize other atomic clocks in space more precisely.

"A more accurate clock system in space will benefit us on Earth," Liu says, citing possible substantial improvements in navigation and positioning accuracy.

Scientists say the development of cold atom technology could also make many experiments possible, such as deep space navigation and positioning, dark matter probes, and even gravitational wave exploration.

"A lot of research is based on our measurement of time and space. If we could detect subtle changes in time and space, we could make discoveries beyond the range of existing technology," Liu says.

"In the future, there will be more accurate clocks than this cold atom clock and our ultimate goal is to make a clock that will never be a second fast or slow over the life of the universe."
 
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Space clock to boost positioning accuracy of China’s satellite systems

By Yin Han Source:Global Times Published: 2018/7/26 22:48:40


The world's first space cold atom clock (CAC) is expected to drive the accuracy of global navigation satellite systems to another level, expert said after the clock passed all tests in the Tiangong-2 space lab.

The new technology can reach a stability of 7.2×10-16, which means an error of within "one second every 30 million years," Liu Liang, leader of the project, told the Global Times on Thursday.

An ordinary quartz clock is accurate to some seconds every 10 days, while mechanical watches could err several seconds in a day, according to Liu.

The Tiangong-2 was launched in 2016. Testing the CAC was one of the 14 research programs conducted in the space lab during the past two years, according to a report released by the Chinese Academy of Sciences.

The results were published in the journal Nature Communication on Tuesday.

CAC uses laser-cooled atoms as a medium to receive highly stable frequency signals, while traditional atomic clocks use hot atoms which have almost reached their limits, especially in regard to long-term stability, Liu said.

Such clocks operating in outer space can "overcome the gravity which causes timing errors on earth," Jiao Weixin, a space science professor at Peking University said.

The atomic clock is the core of a navigation satellite system. An improvement of an atomic clock's performance can improve not only the positioning accuracy, but also the stability of the system, Liu said.

"We hope CAC could be applied to navigation satellite systems in the near future, where the navigation accuracy could be raised to another level," Liu said.

http://www.globaltimes.cn/content/1112594.shtml
 
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Great, world’s first ‘cold’ atomic clock in space!

Just wonder how will the western media to describe the achievement though nothing can be expected. Maybe another example will be released out that this kind of equipment is already in lab of US decades ago.:o::D
they would say stolen techs for sure and say US has made this 50 years ago!
 
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