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Chinese Scientists Make Breakthrough in Quantum Computing

Good, I do remember the new benchmark to measure the power of a quantum computer is about the quantum bit.

So China will have 50 quantum bits by 2020, and 100 quantum bits by 2025 as Dr. Pan aforementioned several years ago.
 
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China Builds World First Quantum Computer

Posted:
May 4, 2017 | Author: chankaiyee2


A file picture of the quantum simulation laboratory at the Chinese Academy of Sciences in Shanghai. Photo: Xinhua

SCMP says in its report “China hits milestone in developing quantum computer ‘to eclipse all others’” yesterday that Chinese scientists have built world first quantum computer.

It quotes Pan Jianwei, lead scientist on the project, as saying, “(T)heir machine would eclipse all of the world’s supercomputers in carrying out the calculations” in a few years’ time.

Previously Pan did research in Austria but could not find a teaching job in the West in spite of his great achievement in quantum technology. China invited him back and provides more funds than he needs and has thus enabled to realize his dreams in building the largest quantum communication network on land, launching world first quantum communication satellite and developing world first quantum computer.

Chinese government is rich and grudges no funds for its talented scientists and engineers. No wonder China can catch up with and surpass the West so fast.

Comment by Chan Kai Yee on SCMP’s report, full text of which can be found at http://www.scmp.com/news/china/poli...scientists-claim-milestone-developing-quantum

@Bussard Ramjet Claim? India? :lol::D
 
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Previously Pan did research in Austria but could not find a teaching job in the West in spite of his great achievement in quantum technology. China invited him back and provides more funds than he needs and has thus enabled to realize his dreams in building the largest quantum communication network on land, launching world first quantum communication satellite and developing world first quantum computer.

We must question why in the first place he had to look for a job in Austria; if he was employed what a loss it would be for China.

Also think how much we might have missed in the form of loss opportunities by losing out the talent.
 
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We must question why in the first place he had to look for a job in Austria; if he was employed what a loss it would be for China.

Also think how much we might have missed in the form of loss opportunities by losing out the talent.
Calm calm, 江山代有人才出,各领风骚数百年

Take a look at the profile of Professor Lu Chao Yang, who is the assistant to Pan.
BTW, Lu was born in Nov. 1982... Compared to him, I think I'm a completely useless guy to my country. Cry...

陆朝阳
14664737_740445.jpg




陆朝阳,男,1982年11月出生,浙江东阳人,九三学社中央青年工作委员会委员,现任中国科学技术大学教授。2011年初,他在剑桥大学完成了博士答辩后,未做一刻停留,随即回国组建固态量子光学实验室,致力于发展和国家信息安全密切相关的量子信息技术,28岁成为中国科大最年轻的教授

他回国后潜心于科研工作,成果多次入选我国两院院士评选的年度“中国科技十大进展新闻”、英国物理学会评选的“国际物理学年度突破”(这是中国本土的成果第一次入选该荣誉)、和美国光学学会评选的“年度国际光学重大进展”。2015年,他和导师潘建伟等一起获得了中国自然科学领域的最高奖项:国家自然科学一等奖。

感受到量子信息在通信安全和计算能力方面的潜在重大应用,博士答辩一结束,陆朝阳随即回国,希望把量子信息技术做大做强,为国家所用。在潘建伟院士的宏观部署下,年轻的研究团队向世界劲旅发起挑战,完成了一系列在国际上有重大影响力的突破。

在多光子纠缠和光学量子计算领域,2012年,团队打破之前的六光子记录,首次实现八光子纠缠,继续在多光子纠缠领域保持国际领先。利用领先的多光子操纵技术,陆朝阳在国际上率先开展利用量子计算解决大数据问题的实验探索,分别于2013年和2015年首次成功实现快速求解线性方程组和量子机器学习的量子算法。

在可扩展固态量子计算方面,陆朝阳等首创脉冲共振荧光技术,克服了十多年来阻碍单光子源品质的瓶颈问题,实现了国际上最高品质的高效率单光子源;首次在类石墨烯单原子层材料中发现非经典单光子发射,连接了量子光学和二维材料这两个重要领域,打开了一条通往新型光量子器件的道路;系列工作使我国在固态光学量子调控这个新领域迅速跻身世界最前列。

利用自主发展起来的高性能单光子源,陆朝阳在国际上率先实现了超越人类历史上第一台电子管和晶体管计算机的量子模拟原型机。这是量子计算科学近30年发展史中,第一次在实验室真正造出光量子器件和经典计算机在某些特定问题方面同台竞赛。在这方面的工作被美国物理学会、英国物理学会、《自然》等广泛关注,并入选了美国光学学会评选的“年度国际光学重大进展”。

在量子通信方面,陆朝阳等在国际上首次实现了单光子多自由度的量子隐形传态,打破了国际学术界18年以来只能传输基本粒子单一自由度的局限,为发展可扩展的量子计算和量子网络技术奠定了坚实的基础。这个工作是历史上中国本土完成的科学成果首次入选英国物理学会评选的国际物理学年度突破榜首。
 
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Calm calm, 江山代有人才出,各领风骚数百年

Take a look at the profile of Professor Lu Chao Yang, who is the assistant to Pan.
BTW, Lu was born in Nov. 1982... Compared to him, I think I'm a completely useless guy to my country. Cry...

陆朝阳
View attachment 394564



陆朝阳,男,1982年11月出生,浙江东阳人,九三学社中央青年工作委员会委员,现任中国科学技术大学教授。2011年初,他在剑桥大学完成了博士答辩后,未做一刻停留,随即回国组建固态量子光学实验室,致力于发展和国家信息安全密切相关的量子信息技术,28岁成为中国科大最年轻的教授

他回国后潜心于科研工作,成果多次入选我国两院院士评选的年度“中国科技十大进展新闻”、英国物理学会评选的“国际物理学年度突破”(这是中国本土的成果第一次入选该荣誉)、和美国光学学会评选的“年度国际光学重大进展”。2015年,他和导师潘建伟等一起获得了中国自然科学领域的最高奖项:国家自然科学一等奖。

感受到量子信息在通信安全和计算能力方面的潜在重大应用,博士答辩一结束,陆朝阳随即回国,希望把量子信息技术做大做强,为国家所用。在潘建伟院士的宏观部署下,年轻的研究团队向世界劲旅发起挑战,完成了一系列在国际上有重大影响力的突破。

在多光子纠缠和光学量子计算领域,2012年,团队打破之前的六光子记录,首次实现八光子纠缠,继续在多光子纠缠领域保持国际领先。利用领先的多光子操纵技术,陆朝阳在国际上率先开展利用量子计算解决大数据问题的实验探索,分别于2013年和2015年首次成功实现快速求解线性方程组和量子机器学习的量子算法。

在可扩展固态量子计算方面,陆朝阳等首创脉冲共振荧光技术,克服了十多年来阻碍单光子源品质的瓶颈问题,实现了国际上最高品质的高效率单光子源;首次在类石墨烯单原子层材料中发现非经典单光子发射,连接了量子光学和二维材料这两个重要领域,打开了一条通往新型光量子器件的道路;系列工作使我国在固态光学量子调控这个新领域迅速跻身世界最前列。

利用自主发展起来的高性能单光子源,陆朝阳在国际上率先实现了超越人类历史上第一台电子管和晶体管计算机的量子模拟原型机。这是量子计算科学近30年发展史中,第一次在实验室真正造出光量子器件和经典计算机在某些特定问题方面同台竞赛。在这方面的工作被美国物理学会、英国物理学会、《自然》等广泛关注,并入选了美国光学学会评选的“年度国际光学重大进展”。

在量子通信方面,陆朝阳等在国际上首次实现了单光子多自由度的量子隐形传态,打破了国际学术界18年以来只能传输基本粒子单一自由度的局限,为发展可扩展的量子计算和量子网络技术奠定了坚实的基础。这个工作是历史上中国本土完成的科学成果首次入选英国物理学会评选的国际物理学年度突破榜首。

Wow, so young and so many records already under his sleeve.

But, there is no such thing as being useless as long as one puts honest effort for the long term betterment and security of his/her nation.

Some are just at the forefront, so, the media notices them.

Every contribution, regardless of publicity, is meaningful. So many real heroes/patriots are nameless and will likely be never known.
 
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We must question why in the first place he had to look for a job in Austria; if he was employed what a loss it would be for China.

Also think how much we might have missed in the form of loss opportunities by losing out the talent.

West continues to be far far ahead of China in terms of scientific research, specially quality scientific research. Chinese scientists overwhelmingly favor Western Universities for both their PhD, post-Doc, and then faculty positions.

I follow the research in Nature and Science regularly, and China contributes less than 5% of the research articles in those journals (which are universally considered the most prestigious science journals).

In fact, Chinese researchers abroad, contribute more to these journals than Chinese researchers in China.

The top most Chinese talent still doesn't want to come to China yet.

Some notable exceptions are: Pan Jianwei, Lu Chaoyang, Yan Nieng

Calm calm, 江山代有人才出,各领风骚数百年

Take a look at the profile of Professor Lu Chao Yang, who is the assistant to Pan.
BTW, Lu was born in Nov. 1982... Compared to him, I think I'm a completely useless guy to my country. Cry...

陆朝阳
View attachment 394564



陆朝阳,男,1982年11月出生,浙江东阳人,九三学社中央青年工作委员会委员,现任中国科学技术大学教授。2011年初,他在剑桥大学完成了博士答辩后,未做一刻停留,随即回国组建固态量子光学实验室,致力于发展和国家信息安全密切相关的量子信息技术,28岁成为中国科大最年轻的教授

他回国后潜心于科研工作,成果多次入选我国两院院士评选的年度“中国科技十大进展新闻”、英国物理学会评选的“国际物理学年度突破”(这是中国本土的成果第一次入选该荣誉)、和美国光学学会评选的“年度国际光学重大进展”。2015年,他和导师潘建伟等一起获得了中国自然科学领域的最高奖项:国家自然科学一等奖。

感受到量子信息在通信安全和计算能力方面的潜在重大应用,博士答辩一结束,陆朝阳随即回国,希望把量子信息技术做大做强,为国家所用。在潘建伟院士的宏观部署下,年轻的研究团队向世界劲旅发起挑战,完成了一系列在国际上有重大影响力的突破。

在多光子纠缠和光学量子计算领域,2012年,团队打破之前的六光子记录,首次实现八光子纠缠,继续在多光子纠缠领域保持国际领先。利用领先的多光子操纵技术,陆朝阳在国际上率先开展利用量子计算解决大数据问题的实验探索,分别于2013年和2015年首次成功实现快速求解线性方程组和量子机器学习的量子算法。

在可扩展固态量子计算方面,陆朝阳等首创脉冲共振荧光技术,克服了十多年来阻碍单光子源品质的瓶颈问题,实现了国际上最高品质的高效率单光子源;首次在类石墨烯单原子层材料中发现非经典单光子发射,连接了量子光学和二维材料这两个重要领域,打开了一条通往新型光量子器件的道路;系列工作使我国在固态光学量子调控这个新领域迅速跻身世界最前列。

利用自主发展起来的高性能单光子源,陆朝阳在国际上率先实现了超越人类历史上第一台电子管和晶体管计算机的量子模拟原型机。这是量子计算科学近30年发展史中,第一次在实验室真正造出光量子器件和经典计算机在某些特定问题方面同台竞赛。在这方面的工作被美国物理学会、英国物理学会、《自然》等广泛关注,并入选了美国光学学会评选的“年度国际光学重大进展”。

在量子通信方面,陆朝阳等在国际上首次实现了单光子多自由度的量子隐形传态,打破了国际学术界18年以来只能传输基本粒子单一自由度的局限,为发展可扩展的量子计算和量子网络技术奠定了坚实的基础。这个工作是历史上中国本土完成的科学成果首次入选英国物理学会评选的国际物理学年度突破榜首。

Yeah, he is an exceptional researcher. He is considered a quantum wizard by many.

China Builds World First Quantum Computer

Posted:
May 4, 2017 | Author: chankaiyee2


A file picture of the quantum simulation laboratory at the Chinese Academy of Sciences in Shanghai. Photo: Xinhua

SCMP says in its report “China hits milestone in developing quantum computer ‘to eclipse all others’” yesterday that Chinese scientists have built world first quantum computer.

It quotes Pan Jianwei, lead scientist on the project, as saying, “(T)heir machine would eclipse all of the world’s supercomputers in carrying out the calculations” in a few years’ time.

Previously Pan did research in Austria but could not find a teaching job in the West in spite of his great achievement in quantum technology. China invited him back and provides more funds than he needs and has thus enabled to realize his dreams in building the largest quantum communication network on land, launching world first quantum communication satellite and developing world first quantum computer.

Chinese government is rich and grudges no funds for its talented scientists and engineers. No wonder China can catch up with and surpass the West so fast.

Comment by Chan Kai Yee on SCMP’s report, full text of which can be found at http://www.scmp.com/news/china/poli...scientists-claim-milestone-developing-quantum

@Bussard Ramjet Claim? India? :lol::D


I never claimed India is in the quantum race yet.

However, it is you who keep claiming that somehow China is ahead of US in quantum computing, which is a totally inaccurate statement.
 
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West continues to be far far ahead of China in terms of scientific research, specially quality scientific research. Chinese scientists overwhelmingly favor Western Universities for both their PhD, post-Doc, and then faculty positions.

I follow the research in Nature and Science regularly, and China contributes less than 5% of the research articles in those journals (which are universally considered the most prestigious science journals).

In fact, Chinese researchers abroad, contribute more to these journals than Chinese researchers in China.

The top most Chinese talent still doesn't want to come to China yet.

Some notable exceptions are: Pan Jianwei, Lu Chaoyang, Yan Nieng



Yeah, he is an exceptional researcher. He is considered a quantum wizard by many.




I never claimed India is in the quantum race yet.

However, it is you who keep claiming that somehow China is ahead of US in quantum computing, which is a totally inaccurate statement.
China is indeed ahead in quantum computer and virtually anything quantum. You use this bogus or bias western source to prove your point so it's invalid. Those report or assessment will purposely omit China lead and try to brag as much as possible abt western one.
 
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It's not embarrassing at all to admit US leads RD in quantum computing although China made great progress in this field in past few years. Within 30 years, China together with US will lead innovation in science and technology, Europe and Japan probably decline, India will follow up.
 
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China is indeed ahead in quantum computer and virtually anything quantum.

How do you know?
In fact, judging by this statement of yours, you don't even seem to know much about quantum physics, or the research happening in the field.

Your remark regarding China leading in "anything quantum" is hilarious.

Quantum Physics is the dominant physical framework of understanding the world. Which means it is applied in EVERYTHING.

There is quantum thermodynamics, quantum chemistry; there is even an up and coming field called quantum biology.

We are talking here only about Quantum IT (Information Technology), which uses quantum principles for the evolution of the next generation of IT infrastructure superseding the classical one.

It would broadly include the following fields:
  1. Quantum Cryptography, and Quantum Communications: This is the field where China is strongest at, and is perhaps even leading. China's quantum satellite, and fibre optic link fall in this category.
  2. Quantum Sensors, and Hardware: This is the field where China produces good work, but US and EU is in the lead.
  3. Quantum Computing: This is where US leads by a margin.
  4. Theoretical Quantum Computing, Algorithms: China doesn't even feature here. China is good in experimental physics, not in theoretical one.

You use this bogus or bias western source to prove your point so it's invalid.

I have quoted Scott Aaronson, who is a leading theoretical quantum physicist. In fact, your sources are far more biased, and don't know anything about the stuff they are writing.

Pan Jianwei's team made what is called a Boson Sampling Machine. It is not a universal quantum computer. And it is not even being pursued by other research groups, who are going all in for a universal quantum computer.

Those report or assessment will purposely omit China lead and try to brag as much as possible abt western one.

In fact they do the opposite. They overplay China's advance in quantum computing so that they can lobby for funds. (Both in US and EU)

Now, Mr. @Beast please state your sources, and analysis on why do you think China leads quantum computing, and virtually "anything quantum."
 
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It's not embarrassing at all to admit US leads RD in quantum computing although China made great progress in this field in past few years. Within 30 years, China together with US will lead innovation in science and technology, Europe and Japan probably decline, India will follow up.
As I know, US , China and Japan these three nations are indeed pouring tons of money into this latest technique revolution . West European nations were stuck into two many mess , and their government has not enough resource invested in the front fields .
It is far way from enough to develop all the advanced techs with the resource of University or academy today.

In 10 to 20 years, the gap of technology would emege, and West Europe would bend to US completely.
 
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China Races to Show Quantum Advantage
By Tiffany Trader
May 3, 2017

Quantum computing has been one of those long-promised breakthroughs, forever on the horizon yet just out of reach, but a quickening is upon us with Google, IBM and others vying to cross a major threshold in a matter of months (as reported recently by MIT News). The target they are gunning for is quantum supremacy, the term coined by theoretical physicist John Preskill to define the point at which a quantum processor surpasses the ability of the largest classical supercomputer to carry out a well-defined problem.

A front-runner in the global supercomputing race, China is also proving itself as a world leader in quantum research. At a press conference in Shanghai on Wednesday, a quantum research team from Eastern China announced they had a hit a milestone in creating a quantum machine that can compete with today’s classical computers.

Team leader quantum physicist Pan Jianwei, an academician of the Chinese Academy of Sciences and his colleagues Lu Chaoyang and Zhu Xiaobo (of the University of Science and Technology of China), and Wang Haohua (of Zhejiang University) reported that their quantum processors could solve certain tasks faster than classical machines.

The researchers’ quantum device is called a boson sampling machine, considered “a strong candidate to demonstrate ‘quantum computational supremacy’ over classical computers,” according to the team. At the crux of the advance are two primary components: “robust multiphoton interferometers with 99% transmission rate and actively demultiplexed single-photon sources based on a quantum dot–micropillar with simultaneously high efficiency, purity and indistinguishability.”

The scientists’ implementations of three-, four- and five-photon boson sampling achieve sampling rates of 4.96 kHz, 151 Hz and 4 Hz, respectively, reaching speeds 24,000 times faster than previous experiments. “Our architecture can be scaled up for a larger number of photons and with higher sampling rates to compete with classical computers,” they write in their paper, which was published in the scientific journal Nature Photonics on Tuesday.

The Chinese team said their prototype quantum computing machine is 10 to 100 times faster than the first electronic computer, ENIAC, and the first transistor computer, TRADIC, and could “one day could outperform conventional computers.”

University of Texas at Austin Professor Scott Aaronson, who proposed the boson sampling machine, reported that the research showed “exciting experimental progress.”

“It’s a step towards boson sampling with say 30 photons or some number that’s large enough that no one will have to squint or argue about whether a quantum advantage has been attained,” he told the South China Morning Post.

Pan Jianwei is also the chief engineer of the world’s first quantum satellite, launched by China in August 2016. The goal of the project is to secure ultra-secure “hack-proof” quantum communications and to demonstrate features of quantum theories, such as entanglement. In January, Jianwei stated, “the overall performance has been much better than we expected; it will allow us to conduct all our planned experiments using the satellite ahead of schedule and even add some extra ones.”

https://www.hpcwire.com/2017/05/03/china-races-show-quantum-advantage/
 
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As I know, US , China and Japan these three nations are indeed pouring tons of money into this latest technique revolution . West European nations were stuck into two many mess , and their government has not enough resource invested in the front fields .
It is far way from enough to develop all the advanced techs with the resource of University or academy today.

In 10 to 20 years, the gap of technology would emege, and West Europe would bend to US completely.

RD is not a money only thing. US has an attractive atmosphere and mechanism which is the core competency of US. For most European countries, esp Eastern Europe, brain drain is a big issue, most talents either move to Germany, France, UK or US, this is a ramification of globalization. Esp. Along with the politically turning right and instability of European society, I reckon more and more European scientists would emigrate to US. The distribution of talents is polarizing globally.

For Japan, due to its stagnating economy, closed mindset and aging population, even if more money is poured into RD, the output is supposed to be insignificant in the future, any new promising startup or new industrial leader in past decade from Japan? Japan still dominate many sectors e.g. high precision parts, robotics, high end machine tool, automobile etc, I hope China will grab more and more shares from Japan and Korea from these industrial sectors.
 
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RD is not a money only thing. US has an attractive atmosphere and mechanism which is the core competency of US. For most European countries, esp Eastern Europe, brain drain is a big issue, most talents either move to Germany, France, UK or US, this is a ramification of globalization. The distribution of talents are polarizing globally. For Japan, due to its stagnating economy, closed mindset and aging population, even if more money is poured into RD, the output is supposed to be insignificant in the future, any new promising startup or new industrial leader in past decade from Japan? Japan still dominate many sectors e.g. high precision parts, robotics, high end machine tool, automobile etc, I hope China will grab more and more shares from Japan and Korea from these industrial sectors.
I am talking about next generation tech .
You have no idea about what Japanese corp and Japan academy has achieved in terms of AI, Cloud , new material and green resource.
In some fields, Japan is even stronger than US.
Do not underestimate anyone .
Japan architecture of R$D has a lot of strongpoints derserving China learning.
The development of China doesn't depend on bragging.
 
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I am talking about next generation tech .
You have no idea about what Japanese corp and Japan academy has achieved in terms of AI, Cloud , new material and green resource.
In some fields, Japan is even stronger than US.
Do not underestimate anyone .
Japan architecture of R$D has a lot of strongpoints derserving China learning.
The development of China doesn't depend on bragging.

I'm not underestimating Japan, Japan is still strong in many sectors as I mentioned. However the output is primarily based on talent flow, less and less Japanese pursue oversea STEM degree in US, meanwhile Japan is a very restrict country for immigrant. I'm predicating the trend. Did you ever see my bragging on PDF?
 
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