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!!POSTPONED!!

51st IFF Spring School

Quantum Technology - NOW POSTPONED UNTIL 01-12 MARCH 2021!!


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UPDATE 01.04.20:

Our staff are doing all they can to ensure the Spring School fees are returned as quickly as possible. Unfortunately, we must again ask for your patience, as the Coronavirus has meant delays in our administrative procedures.

If you paid by credit card:
-all reimbursements were prepared on 26.03. These will still take time to reach your account, so please be patient!

If you paid by bank transfer:
- fees can ONLY be returned to the same accounts they came from.

- Ms Daegener may contact some of you with overseas bank accounts from 06.04 onwards to confirm your bank details.

- only when the bank details of ALL participants have been confirmed can the payments be released, so this may take UP TO SIX WEEKS to complete.

In short, please have patience with us in these difficult circumstances! We kindly ask you NOT to contact us about this matter in the meantime, as this slows down the whole process even further!

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Postponement of Spring School 2020:

To maintain a safe environment in Jülich and Germany, Forschungszentrum Jülich has cancelled the IFF Spring School 2020 due to global concerns regarding the coronavirus outbreak. In the interests of the health and safety of participants, our employees, as well as public welfare, it is now impossible for us to hold the event.

Reimbursement:
The process of reimbursing the Spring School’s fees is already underway. Please be aware that we are unable to reimburse you for travel costs and/or other expenses (e.g. visa costs) . We therefore kindly ask you not to send us any further requests for this type of reimbursement. However, Deutsche Bahn may reimburse costs for certain train tickets cancelled due to the coronavirus outbreak: see here for more information (in German).

Visa:
Please note that any invitations participants may have received from Forschungszentrum Jülich with regard to their visa application are no longer valid!

The IFF Spring School "Quantum Technology” will NOW BE POSTPONED UNTIL 01-12 MARCH, 2021. We would like to invite you to register for this event in due course, as soon as the new website is ready. 

All participants who received a confirmation from us for this year's Spring School will be given priority in 2021.

 


Overview

Imagine what we would know - or better: would not know - about the structure and dynamics of microscopic systems if scientists such as Albert Einstein (Nobel Prize 1921), Niels Bohr (Nobel Prize 1922), Werner Heisenberg (Nobel Prize 1932), Erwin Schrödinger, Paul Dirac (Nobel Prize 1933) and many others would not have imagined and formalised quantum mechanics. This theory provided the understanding of fundamental aspects of the interaction between matter and radiation to the level needed to make atoms work for us in new and most remarkable ways. It heralded the first quantum revolution which began with the discovery of the transistor (Nobel Prize 1956 to William Shockley, John Bardeen and Walter Brattain) and the laser (Nobel Prize 1964 to Charles Townes, Nicolay Basov and Aleksandr Prokhorov). Many of the amenities we have become accustomed to (for example, computers, smartphones, GPS, solid-state light) are based on these technologies.

Today, our ability to use previously untapped quantum effects in customised systems and materials is paving the way for a second revolution. With quantum theory now fully established, we are required to look at the world in a fundamentally new way: objects can be in different states at the same time (superposition) and can be deeply connected without any direct physical interaction (entanglement). There are many transformative applications, varying from products with a relatively short time to market through to revolutionary new technologies that may require more than a decade of research and development. Quantum computers are expected to be able to solve in a few days, problems that are unsolvable by the supercomputers of today and tomorrow. This, in turn, will seed breakthroughs in the design of chemical processes, new materials, such as higher temperature superconductors, and new paradigms in machine learning and artificial intelligence.

Based on quantum coherence, data can be protected in a completely secure way that makes eavesdropping impossible. Given the explosive growth of cybercrime and espionage, this is a highly strategic capability. Quantum technologies will also give rise to simulation techniques well beyond current capabilities for material and chemical synthesis, and to clocks and sensors with unprecedented sensitivity and accuracy, with potential impact for navigation, the synchronisation of future smart networks and medical diagnostics.

Please download poster and flyer 2020

 Spring School poster (PDF, 2 MB)

 Spring School flyer (PDF, 1 MB)


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