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Dr Najwa Sidqi, Knowledge Transfer Manager of Quantum Technologies at KTN, explains that, despite the media focus on computing, quantum technologies are far broader than you might think, and they are set to impact the world dramatically

Throughout history, there have been revolutionary technological innovations that have changed the way the world operates and quantum technology is set to be the next of these developments. While quantum computing is regularly discussed in the media, it is largely hogging the limelight thats right, the scope of quantum tech is far broader than just increasing computing power beyond anything that is currently available. With some of it very close to the market, its quite strange that we dont hear about all the other elements of quantum technology that are soon going to change our lives.

In recent years, the advancement of technology has been seen through our ability to shrink things down and get more processing power out of a smaller surface area. The problem is, there is a limit to how small we can go while we use electrons as our basic building block of computing (literally the difference between a 1 and a 0 to a computer). If, however, we were able to utilise smaller subatomic particles, such as photons, we could increase the power of our technology considerably.

But as weve learnt to manipulate and measure the energy of individual photons, weve come to realise that its applications go beyond simply boosting the processing power of our PCs. And thats why quantum technology is broader than quantum computing.

So, why does computing take up so much of the focus? Its simple really, the benefits of quantum computing are easy to get your head around and apply to just about every sector. All industries, from finance to construction and nuclear energy to farming, require at least some level of computing.

The other key reason is that its the big names in IT, Google, IBM and Microsoft, that are driving the development of quantum computing, each devoting huge amounts of resource to it and generating a lot of media interest too.

So, what are some other applications of quantum technology? Well, thats the exciting thing. The applications are enormous and could well be endless.

Right now, theres exciting work being done in quantum communication, which allows for infinitely more complex data encryption than what is currently available.

Quantum sensing is another incredible field of research and development that will take our ability to precisely measure electromagnetic waves, fields and forces so much further forward that its hard to comprehend the impact on scientific understanding.

Quantum imaging has the potential to revolutionise metrology in a number of fields, with applications in gas leak detection to non-invasive in vivo imaging in healthcare. So, how far off into the distant future are these technologies of tomorrow? Well, not too distant at all, in fact theyre already being commercialised.

Companies such as QLM Technology use a quantum gas imaging LIDAR to detect and monitor greenhouse gases. The photon-precise sensor allows organisations to effectively monitor and map the locations and flow rates of gas leaks with high-sensitivity imaging that shows plume shape and concentration.

Likewise, ID Quantique, based in Switzerland, is already leading the world in quantum-safe encryption solutions. Their products are in use by governments, enterprises and research labs across the world.

OK, yes, quantum computing is very exciting, but its not the only quantum technology thats going to improve our lives. There are exciting developments occurring throughout the field of quantum technology which deserve the same amount of attention, and theyre right around the corner!

If youre interested in quantum R&D, theUK National Quantum Technologies Showcaseis taking place on Friday 5th November in the Business Design Centre, London. It will bring together around 60 of the UKs most exciting projects from across the Quantum landscape. The event will also be streamed live for virtual attendees. Exhibitors can register nowhere and delegates will be able register in September, Id love to see you there.

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Quantum More Than Just Computing - Todayuknews - Todayuknews

The installation of memory and repeater devices in space, to enable use of the quantum internet, have been proposed in research by the University of Strathclyde and an international collaboration.

The study suggests that quantum memories (QM), which store information in quantum form, and repeaters, which are used in the transmission of the information, can be deployed to facilitate use of advanced internet technology. This is done through distribution of quantum entanglement, a phenomenon in which two particles are interlinked, potentially at vast distances from each other.

The research showed that satellites equipped with QMs provided entanglement distribution rates which were three orders of magnitude faster than those from fibre-based repeaters or space systems without QMs.

The study has been published in the journal npj Quantum Information. It was led by Humboldt University in Berlin and also involved the Institute of Optical Sensor Systems of the German Aerospace Center (DLR) and JPL (Jet Propulsion Laboratory NASA).

Dr Daniel Oi, Senior Lecturer in Strathclydes Department of Physics, a partner in the research, said: We show in this paper that this method would have much higher performance than previously proposed schemes and we identify promising physical systems with which to implement it.

The work is connected to wider work at Strathclyde on Quantum Technologies, and in particular Space Quantum Communication research that includes several space missions due to be launched in the next few years.

Global-scale quantum communication links will form the backbone of the quantum internet. Exponential loss in optical fibres means that there is no realistic application of this beyond a few hundred kilometres but quantum repeaters and space-based systems offer a solution to this limitation.

The proposal in the research uses satellites equipped with QMs in low-earth orbit. It is focused on the use of quantum key distribution (QKD) for encryption and distribution, and of QMs to synchronise detection events which could otherwise have been happening by chance.

The researchers describe their study as a roadmap to realise unconditionally secure quantum communications over global distances with near-term technologies.

The paper states: With the majority of optical links now in space, a major strength of our scheme is its increased robustness against atmospheric losses. We further demonstrate that QMs can enhance secret key rates in general line-of-sight QKD protocols.

AQuantum Technology Cluster is embedded in the Glasgow City Innovation District, an initiative driven by Strathclyde along with Glasgow City Council, Scottish Enterprise, Entrepreneurial Scotland and Glasgow Chamber of Commerce. It is envisaged as a global place for quantum industrialisation, attracting companies to co-locate, accelerate growth, improve productivity and access world-class research technology and talent at Strathclyde.

The University of Strathclyde is the only academic institution that has been a partner in all four EPSRC funded Quantum Technology Hubs in both phases of funding. The Hubs are in: Sensing and Timing; Quantum Enhanced Imaging; Quantum Computing and Simulation, and Quantum Communications Technologies.

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Memory devices on satellites to enable the quantum internet - University of Strathclyde

06 September 2021 | Alan Burkitt-Gray

Traditional PKI methods of encrypting data are about to fall to the onslaught of quantum computing. Arqit, a start-up led by David Williams thinks it has a quantum-based solution, he tells Alan Burkitt-Gray

A start-up company that is expected to be valued at US$1.4 billion by the end of August is launching its quantum-based telecoms encryption service in the middle of July. Arqit, founded by satellite entrepreneur David Williams, is launching QuantumCloud, a platform-as-a-service (PaaS) for telecoms, including consumer, industrial and defence internet of things (IoT), he tells me.

Early customers, including BT and other telcos that he doesnt want to name, have already signed contracts and used the cyber security software, but Arqit is likely to be thrust into greater prominence imminently, when a Nasdaq-listed special purpose acquisition company (Spac) buys it in a deal that will value it at $1.4 billion.

Williams and a small number of co-founders will own 45%, he tells me a stake that will be worth $630 million to him and his colleagues.

A former banker, Williams, who is now chairman of Arqit, was founder and CEO of Avanti, a UK-based company that runs a fleet of geostationary satellites called Hylas with government, military and commercial customers. He left Avanti in August 2017 and a month later set up Arqit.

Being the founder of two satellite companies is a pretty remarkable record after seven years working for three banks following a degree in economics and politics. (He also notes that he was the yard-of-ale champion at the University of Leeds.)

However, his first start-up, Avanti Communications, has not fared well over the past year, long after Williamss departure. In February 2021 its existing junior lenders injected $30 million of new capital, and its so-called super senior facility, which was due for repayment in February, was extended, but only to the end of January 2022.

Existential threat

But Arqit has moved into a completely different market, addressing something the company calls an existential threat to the hyperconnected world. Why? The legacy encryption that we all use, designed in the 1980s, has done a great job but is now failing us, says Arqit on its website. It was never intended for use in our hyper-connected world. The breaches caused are seen around us daily.

At the same time, there is a bigger problem. Quantum computing now poses an existential threat to cyber security for everyone. As a result, the world must begin a global upgrade cycle to replace all encryption technologies, an upgrade unlike anything we have seen before, says the company.

Dont bother patching and mending, says Arqit. Dont take risks with incremental improvements to public key encryption which is no longer fit for purpose.

Encryption using public key infrastructure (PKI) emerged from the communications intelligence community around 1971 in work by James Ellis at the UKs Government Communications Headquarters (GCHQ) and was then developed further in 1976 through work in the US and Israel by Whit Diffie and Martin Hellman and separately by Ronald Rivest, Adi Shamir and Leonard Adleman (known, from their initials, as RSA).

So, the idea is virtually half a century old. But in that time, certainly in the past decade, it has done us well. If the URL of a website starts https://, you know its encrypted to those 1970s standards. It means we are reasonably confident we can type our credit card details into a hotel, theatre, travel or shopping site. Messaging apps such as Signal and WhatsApp use encryption based on these PKI principles.

No one trusts PKI

However, no one trusts PKI any more, says Williams. The safest way of delivering keys to a battlefield is now to put them on a dongle and fly them in by helicopter.

At the heart of the problem is the fact that quantum computers are coming, and quantum computers are fast. Diffie and Hellman, and the RSA trio, calculated that if it took weeks or months to decrypt a message, PKI was secure. Breaking the code would be computationally infeasible, to use the term the crypto community likes.

By perhaps as soon as next year, quantum computers will be able to work so fast that they will have decrypted the text in a usable period of time. The challenge will no longer be computationally infeasible. Someone intercepting a transaction could find your credit card details within an hour or so, and use them. So, thats why there is pressure to upgrade to a new system of key exchange, a replacement for PKI.

However, the security people have something more to worry about. Many suspect that for years governments and other organisations have been squirrelling away in their vaults traffic that is encrypted to current standards, knowing that, any time soon, they will be able to crack it.

Think of all those politicians, on all sides of the global political divides, who have been conspiring via WhatsApp. Think of all those whistleblowers who have leaked information to law enforcement authorities or journalists via Signal. Think of all those criminal organisations that have been using Telegram for their plans.

Lemon juice and milk

Thats why PKI, the current crypto infrastructure, is facing what Arqit calls an existential threat. Pretty soon, it will be as outmoded as writing Xf buubdl bu ebxo upnpsspx* in lemon juice or milk and sending it via carrier pigeon. Dont bother with minor fixes, says Arqit. Its wrong to patch and mend, or to take risks.

The future lies in symmetric keys, with a new way of distributing them. Symmetric keys are provably secure against any attack, including quantum computing, says the company.

The problem is that, until now, there has been no safe way to distribute them. Arqit says that it offers a method to create those keys at scale, securely, at any kind of endpoint device. We have invented a method of creating unbreakable encryption keys locally, both at the edge and in the cloud, says Williams.

Arqit has a solution. Its called Arq19, pretty much for the same reason Covid-19 has that suffix: 2019 was our Eureka moment, he smiles.

These are systems he calls global and trustless, a confusing term. It seems to mean you cant trust it, but what Williams and Arqit mean is that you dont have to trust it, as keys will never be stored in any system, so they cannot be stolen, but they can be put on devices within less than half a second to enable a high level of security.

We create hardware storage modules in a number of places he says London, New York, Sydney, for example. But those arent the keys. They are clues, a process involving shared secrets to create brand-new symmetrical encryption keys. No, I dont understand either; but how many people in 1936 understood Turings famous paper, On Computable Numbers, which started the computer revolution? (Turing went on to work during World War Two at GCHQs predecessor at Bletchley Park, in what is now the English city of Milton Keynes.)

Arqit can deliver its keys in unlimited group sizes, says Williams. The traditional PKI approach is for two-way communications Alice and Bob, in the crypto communitys terminology.

But what Williams is looking for is a system that will work with Alice, Bob, Catherine, Dave, Eve and a whole telephone directory.

For example, says Williams, they can deliver keys to international telecoms networks, and we can change the key every second if we want. He says that will result in ultra-secure software defined networks (SDNs).

We can deliver quantum keys in a manner thats global and trustless, says Williams. The company will use a small fleet of satellites, weighing 300kg each, that is being built by QinetiQ, a company formed 20 years ago by the privatisation of part of the UK governments Defence Evaluation and Research Agency.

BT has an exclusive deal to distribute Arqits QuantumCloud services in the UK, and the Japanese firm Sumitomo has a deal as the first big international customer, says Williams.

It is working with telcos to encrypt traffic on Japanese fibre cables, he adds.

These are contracts with distributors that have been signed, but the companys first contract with a corporate user went live in June, he says, although he will not name the partner, except that it is a big global corporation. It is an enterprise customer and is not BT.

The eventual market will include the internet of things (IoT) and connected cars, enterprise and connectivity, he said. Cost will be low, says Williams. Users will pay a tiny fraction of a dollar for each key created.

Heir to Turing

Williams has gathered around him a range of technical, crypto and management talent. CTO and co-founder with Williams is David Bestwick, who was also a co-founder and CTO of Avanti. Theres a chief cryptographer who was at GCHQ: think of David Shiu as the inheritor of the tradition founded by Turing 80 years ago.

There are other ex-GCHQ people, too, and a retired air vice-marshal and a former lieutenant general in the US Air Force. And more, including experts in telecoms, IT and a chief software engineer who was at McAfee. And a former head of operations at 10 Downing Street.

These people are well connected. Well see what they achieve.

Though, will we be able to find out, or will it all be encrypted?

*Xf buubdl bu ebxo upnpsspx means just We attack at dawn tomorrow, using the so-called Caesar cipher, as reputedly used by the Roman dictator

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Future in the cloud for encryption - Capacity Media

How can one predict a materials behavior on the molecular and atomic levels, at the shortest timescales? Whats the best way to design materials to make use of their quantum properties for electronics and information science?

These broad, difficult questions are the type of inquiries that UC Santa Barbara theorist Vojtech Vlcek and his lab will investigate as part of a select group of scientists chosen by the U.S. Department of Energy (DOE) to develop new operating frameworks for some of the worlds most powerful computers. Vlcek will be leading one of five DOE-funded projects to the tune of $28 million overall that will focus on computational methods, algorithms and software to further chemical and materials research, specifically for simulating quantum phenomena and chemical reactions.

Its really exciting, said Vlcek, an assistant professor in the Department of Chemistry and Biochemistry, and one of, if not the youngest researcher to lead such a major endeavor. We believe we will be for the first time able to not only really describe realistic systems, but also provide this whole framework for ultrafast and driven phenomena that will actually set the scene for future developments.

I congratulate Vojtech Vlcek on being selected for this prestigious grant, said Pierre Wiltzius, dean of mathematical, physical and life sciences at UC Santa Barbara. Its especially impressive and unusual for an assistant professor to lead this type of complex, multi-institution research project. Vojtech is in a league if his own, and I look forward to future insights that will come from the teams discoveries.

A Multilayer FrameworkAs part of the DOEs efforts toward clean energy technologies, scientists across the nation study matter and energy at their most fundamental levels. The goal is to design and discover new materials and processes that can generate, manipulate and store energy techniques that have applications in a wide variety of areas, including energy, environment and national security.

Uncovering these potentially beneficial phenomena and connecting them to the atoms they come from is hard work work that could be assisted with the use of the supercomputers that are housed in the DOEs national laboratories.

DOEs national labs are home to some of the worlds fastest supercomputers, and with more advanced software programs we can fully harness the power of these supercomputers to make breakthrough discoveries and solve the worlds hardest to crack problems, said U.S. Secretary of Energy Jennifer M. Granholm. These investments will help sustain U.S. leadership in science, accelerate basic energy and advance solutions to the nations clean energy priorities.

Among these hard-to-crack problems is the issue of many interacting particles. Interactions are more easily predicted in a system of a few atoms or molecules, or in very regular, periodic systems. But add more bodies or use more elaborate systems and the complexity skyrockets because the characteristics and behaviors of and interactions between every particle have to be accounted for. In some cases, their collective behaviors can produce interesting phenomena that cant be predicted from the behavior of individual particles.

People have been working with small molecules, or characterizing perfectly periodic systems, or looking at just a few atoms, Vlcek said, and more or less extending their dynamics to try to approximate the behaviors of larger, more complex systems.

This is not necessarily realistic, he continued. We want to simulate surfaces. We want to simulate systems that have large-scale periodicity. And in these cases you need to consider systems that are not on nanometer scales, but on the scale of thousands of atoms.

Add to that complexity non-equilibrium processes, which are the focus of Vlceks particular project. He will be leading an effort that involves an additional seven co-principal investigators from UC Berkeley, UCLA, Rutgers University, University of Michigan and Lawrence Berkeley National Laboratory.

Essentially these systems are driven by some strong external stimuli, like from lasers or other driving fields, he said. These processes are relevant for many applications, such as electronics and quantum information sciences.

The goal, according to Vlcek, is to develop algorithms and software based on a multilayer framework with successive layers of embedding theories to capture non-equilibrium dynamics. The team, in partnership with two DOE-supported Scientific Discovery through Advanced Computing (SciDAC) Institutes at Lawrence Berkeley and Argonne National Laboratories, begins with the most fundamental assumptions of quantum theory. That foundation is followed by layers that incorporate novel numerical techniques and neural network approaches to take advantage of the intensive computing the supercomputers can perform.

We still stay with the first principles approach, but were making successive levels of approximations, Vlcek explained. And with this approach well be able to treat extremely large systems. Among the many advantages of the methodology will be the ability for the first time to describe experimental systems in real-time, as they are driven by external forces.

The outcome of the project will be bigger than the sum of its parts, said Vlcek. Not only will it provide a method of studying and designing a wide variety of present and future novel materials, the algorithms are also meant for future supercomputers.

One interesting outcome will be that we will also try to connect to future computational platforms, which could possibly be quantum computers, he said. So this framework will actually allow future research on present and future novel materials as well as new theoretical research.

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Many Bodies, Many Possibilities | The UCSB Current - The UCSB Current

Clinton: U.S. could do more world vaccinations

Former Secretary of State Hillary Clinton said Monday the U.S could be doing more "vaccine diplomacy" by giving vaccines to poorer countries to nurture goodwill worldwide. (March 22)

AP

Supporters of the QAnon conspiracy theory are banned from mainstream social media platforms like Facebook and Twitter, but their baseless claims continue to get traction.

In March, USA TODAY debunkedan articlethat claimedNavy SEALs loyalto former President Donald Trump arrested former Secretary of State Hillary Clinton for treason.The claim was fictional, but an "update" on Clinton's purported arrest is now circulating on TikTok and Instagram.

The video, which has more than 29,000 views on TikTok, shows an April 26 article from Real Raw News, a website that has previously published false claims related to QAnon. The article saysClinton was hanged for crimes like murder and child trafficking.

"Scrambled eggs with jalapeno peppers, and a strawberry milkshake. The last meal of the condemned," the article says.

Fact check: Hillary Clinton was not arrested by Navy SEALs acting on Trump's order

None of these claims are true.

USA TODAY reached out to Real Raw News and several pages that posted the videofor comment.

There is no evidence to support the events detailed in Real Raw News' article.

The series from Real Raw News on Clinton's "arrest" relies heavily on the baseless QAnon conspiracy theory, whichgained an online following in 2017. The theory asserts the existence of aglobal cabal of Satan-worshipping, cannibalistic child sex traffickers whose members are part of the United States government, media and Hollywood.

Clinton is a key part of the conspiracy theory. QAnon supporters say Trump's election was part of an elaborate scheme to prosecute purported pedophiles like Clinton, as well as celebrities like Tom Hanks and Oprah Winfrey.

QAnon's claims are not based in fact, and many of the conspiracy theory's predictions proved wrong.Real Raw News' articleprovides no source, nor any public records of a trial, arrest or execution. No credible media organization has reported that Clinton died or was arrested.

AsPolitiFact reported, Clinton is alive and wasactive during the period detailed by Real Raw News.

Fact check: New Tucson facility is housing center for migrants waiting for processing

She participated in a live chat with The Washington Post on March 8, and she is scheduled to appear at a June 24 speaking event hosted by The New York Times.A photo postedJune 11on Twitter showsClintonwith Lin-Manuel Miranda in New York City fora screening of hisnew movie "In the Heights," which was released June 9.

The claim that Clinton was hanged at Guantanamo Bay is FALSE, based on our research.There is no evidence to support the claim, which is related to the baseless QAnon conspiracy theory. Clinton is alive and has been active over the past few months.

Thank you for supporting our journalism.You cansubscribe to our print edition, ad-free app or electronic newspaper replica here.

Our fact check work is supported in part by a grant from Facebook.

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Fact check: Hillary Clinton was not hanged at Guantanamo Bay