Café des Sciences: Qubits and Entanglement

By Percy Chen, Junior Project Manager Art-Science

On 16 April 2020, we hosted our webinar titled Café des Sciences: Qubits and Entanglement. Two renowned Swiss quantum field experts Prof. Dr. Richard J. Warburton, Director of NCCR SPIN Project and Professor of Experimental Physics at University of Basel provided us with a technical introduction to quantum computing, while Mr. Franck Franchin, President of Swiss Quantum Hub, illustrated for us the support for Swiss quantum startups. This edition of Café des Sciences was organized in collaboration with the Section of Science, Technology and Education at the Embassy of Switzerland in China.

Prof. Dr. Richard J. Warburton (left) and Moderator Dr. Gaetan Messin, Attaché for Science and Technology, Consulate General of France in Shanghai (right).

Prof. Dr. Richard J. Warburton (left) and Moderator Dr. Gaetan Messin, Attaché for Science and Technology, Consulate General of France in Shanghai (right).

Despite some technical issues, we trust that everyone has acquired informative insights on the topic. Due to the time constraint, we could only present a limited number of questions. If you have further questions for our speakers regarding quantum computing, please email us at cafedessciences@swissnexchina.org. We will try our best to forward them to the speakers.

The edited webinar recording is available to view here (until May 15, 2020).

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Here are some key takeaways that we would like to share with you. 

From Prof. Dr. Richard J. Warburton’s speech:

  • A bit is a basic unit of information. In information theory, one bit is typically defined as the information entropy of a binary random variable that is 0 or 1 with equal probability. Normally, it is like a classic switch - either on or off. A quantum qubit is different in the sense that it can be on and off simultaneously. And this ability of a quantum system to be in multiple states at the same time is called Superposition.

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  • Quantum Entanglement comes into play when we attach another pair of switches to qubits. Both switches can be on or off at the same time. The quantum state of each switch of the pair cannot be described independently of the state of the others, even when the particles are separated by a large distance. Vice versa, when one switch is measured, its paired switch is immediately determined.

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  • So now why is quantum computing so difficult to understand? This is because it is very hard to separate quantum systems from the environment, which is the rest of our world. One significant problem is that things turn to decay. If you put a quantum qubit in the “on” state, it will gradually lose energy and turn to the “off” state. In other words, maintaining a phrase of a quantum state is very difficult.

  • The goal of this century is to make quantum physics useful.

  • The no-cloning theorem states that it is impossible to create an identical copy of an arbitrary unknown quantum state.

  • Quantum Computer: most powerful computer allowed by the laws of physics. It is capable of solving hard problems in chemistry, material science, physics, micro-biology, and more.

  • Quantum computer uses qubtis - superpositions of 0 and - and its computational power comes from entanglement between qubits.

  • The current status is that few qubit devices exist and although quantum supremacy is close, a completed quantum computer is not. This is because we are never able to fully separate a quantum system from its environment. We would need 100 million physical qubits if we want to simulate the behavior of a complex molecule. This scalability problem is extremely challenging.

  • In traditional computer, the scaliability problem has been solved. Silicon transistors now have FinFET technology with less than 10 nano meters of element.

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  • The NCCR SPIN aims to make a major contribution to research and the development of quantum computers and create the basis for a new information-processing technology. The NCCR’s objective is to develop small, fast, scalable silicon-based qubits. It will also generate important findings on software and algorithm development, error correction and the architecture of future quantum computers.

  • Professor Richard J. Warburton and his team are pinning their hopes on silicon, a semiconductor that has been a proven material in the industry for decades. They are convinced that silicon technology is highly promising in enabling the on-chip integration of billions of components, leading to a particularly strong quantum computer.

From Mr. Franck Franchin’s presentation:

  • Swiss Quantum Hub is a non-profit think tank with the mission to help quantum startups accelerate and scale up. The community has around 5,000 members in Switzerland, France, Germany and U.S. Right now, there are four services - Swiss Quantum Academy (SQA), Swiss Quantum Garage (SQG), Swiss Quantum Investor Club (SQIC), and Swiss Quantum MarketPlace (SQMP). Its strategic partnerships include Quantonation, Atos, Amazon AWS, and BNP Paribas.

  • There are 5 big sectors for the quantum industry: Deep Physics, Quantum Sensing, Quantum Computing, and Quantum Cybersecurity.

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  • Quantum computers are not faster than conventional computers at all tasks.

  • Constructing a quantum computer which is capable of outperforming classical computers is a formidable task. One of the most important issues is error correction: we need thousands of physical qubits to achieve one logical fault.

  • Quantum Computers bring new capabilities that existing computers do not have into fields such as in Natural Language Processing and Molecular Simulations.

  • Many problems in Finance, for example, can be expressed as optimization and prediction problems, like finding which asset should be included in a portfolio or estimating of the risk and the return of a portfolio problem. These types of problems are particularly hard for classical computers but find a natural formulation using quantum algorithms.

At the end, we would like to express our great appreciation to Prof. Dr. Richard J. Warburton and Mr. Franck Franchin for sharing their valuable expert insights. We would also like to thank our community for your great engagement as always! Please stay tuned for our next event!

Dr. Gaetan Messin, Attaché for Science and Technology, Consulate General of France in Shanghai (left) and Cissy Sun, Head of Art-Science at swissnex China (right).

Dr. Gaetan Messin, Attaché for Science and Technology, Consulate General of France in Shanghai (left) and Cissy Sun, Head of Art-Science at swissnex China (right).

swissnex China Promotes Swiss VPET System at 4th Sino-Swiss Theme Week

By Libing Gu, Project Leader Academic Relations

On November 12, the 4th Sino-Swiss Theme Week was inaugurated at Sino-Swiss Zhenjiang Ecological Industrial Park; With a special focus on Sino-Swiss cooperation in vocational training and education, the event was well-attended by researchers, schools and companies from both countries. Mrs. Libing Gu, Project Leader of Academic Relations of swissnex China gave a keynote speech on the Swiss vocational & professional education as well as the training system, during which she shared with audience the latest facts and figures and illustrated the reasons why vocational education continues to be such a popular choice for education in Switzerland, while enjoying long-standing prestige worldwide.

Photos © Ma Zhendan

Photos © Ma Zhendan

Photos © Ma Zhendan

Photos © Ma Zhendan

Sino-Swiss Zhenjiang Ecological Industrial Park, the Chinese education and technology company Tomorrow Advancing Life (TAL) and ZHAW Zurich University of Applied Sciences represented by its Head of Competence Center Asia Business School of Management and Law signed a cooperation agreement at the event. ZHAW will contribute to the content development by providing online vocational learning programs.

Photos © Ma Zhendan

Photos © Ma Zhendan

Visiting Shantou University and Promoting Swiss Education and Innovation

On Nov 15th, the Ambassador, H. E. Mr. Jean-Jacques DE DARDEL, Mr. Didier Boschung, Consul General of Switzerland in Guangzhou, Mr. Rene Baenziger Deputy Consul General of Switzerland in Guangzhou, Dr. Felix Moesner, CEO of swissnex China visited Shantou University.

Shantou University, a key comprehensive university under the provincial Project 211 program in Guangdong, was founded in 1981 with the approval of the State Council. It is the only public university that receives funding from the Li Ka Shing Foundation. Furthermore, Shantou University holds some “swissness” since it was designed by renown Swiss architecture firm Herzog & de Meuron, the joint designer of the famous Beijing National Stadium in Beijing, also known as the “Bird’s Nest”.

Under the auspice of the Li Ka Shing Foundation, STU has become one of the few universities in Mainland China that awards full scholarships to overseas exchange students. The university has established close academic ties with nearly 20 universities. Shantou University wished to spread information through swissenx to establish cooperation on student exchange, dual degree and internship. 

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Swiss-Chinese Friendship Day in Shantou

On November 15th and 16th, the Consulate General of Switzerland in Guangzhou, together with swissnex China, Switzerland Global Enterprise Beijing, Switzerland Tourism Beijing/Hong Kong organized a Swiss Day to celebrate Swiss-Chinese Friendship Day in Shantou, see the whole series events in CG Guangzhou official WeChat account.

As partner of the event, swissnex China held an “Innovation and education” seminar. Switzerland has enjoyed for a long time a strong reputation as a unique tourist destination, however, the world is discovering the country's world class education, innovation and creativity. This seminar introduces Switzerland in general and examples of innovation, then share experience how education could facilitate the innovation and how it remains a driver for innovation and creativity in Switzerland.

The Ambassador, H. E. Mr. Jean-Jacques DE DARDEL went to seminar room and deliver a welcome address. Dr. Felix Moesner, CEO of swissnex China intruded Swiss strength in innovation and Swissnex as the Swiss global network connecting the dots in education, research, and innovation. Shi Bodong, project manager embedded in Consulate General of Switzerland in Guangzhou introduced Switzerland in general and Swiss education system. Mr. Didier Boschung, Consul General of Switzerland in Guangzhou also attended the seminar.  

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