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DUBAI, United Arab of Emirates--(BUSINESS WIRE)--Breakthroughs in quantum computing will enable humans to cure diseases like cancer, Alzheimers, and Parkinsons as easily as we treat the common cold.

That was one of the major insights to emerge from the Dubai Future Forum, with renowned theoretical physicist Dr. Michio Kaku telling the worlds largest gathering of futurists that humanity should brace itself for major transformations in healthcare.

The forum concluded with a call for governments to institutionalize foresight and engrain it within decision making.

Taking place in Dubai, UAE at the Museum of the Future, Amy Webb, CEO of Future Today Institute, criticized nations for being too pre-occupied with the present and too focused on creating white papers, reports and policy recommendations instead of action.

Nowism is a virus. Corporations and governments are infected, she said.

One panel session heard how humans could be ready to test life on the Moon in just 15 years and be ready for life on Mars in another decade. Sharing his predictions for the future, Dr. Kaku also said there is a very good chance humans will pick up a signal from another intelligent life form this century.

Dr. Jamie Metzl, Founder and Chair, OneShared.World, urged people to eat more lab-grown meat to combat global warming and food insecurity.

If we are treating them like a means to an end of our nutrition, wouldnt it be better instead of growing the animal, to grow the meat? he said.

Among the 70 speakers participating in sessions were several UAE ministers. HE Mohammad Al Gergawi, UAE Minister of Cabinet Affairs, Vice Chairman, Board of Trustees and Managing Director of the Dubai Future Foundation, said ministers around the world should think of themselves as designers of the future. Our stakeholders are 7.98 billion people around the world, he noted.

Dubais approach to foresight was lauded by delegates, including HE Omar Sultan Al Olama, UAE Minister of State for Artificial Intelligence, Digital Economy, and Remote Work Applications, who said: What makes our city and nation successful is not natural resources, but a unique ability to embrace all ideas and individuals.

More than 30 sessions covered topics including immortality, AI sentience, climate change, terraforming, genome sequencing, legislation, and the energy transition.

*Source: AETOSWire

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Cancer to Be Treated as Easily as Common Cold When Humans Crack Quantum Computing - Business Wire

CERN has joined a coalition of science and industry partners proposing the creation of an Open Quantum Institute. This institute will work to ensure that emerging quantum technologies are put to use to tackle key societal challenges. The proposal is being made through GESDA, the Geneva Science and Diplomacy Anticipator Foundation, in collaboration with leading research institutes and technology companies. Other founding supporters of the Open Quantum Institute include the University of Geneva, the Swiss Federal Institutes of Technology in Zurich (ETH) and Lausanne (EPFL), Microsoft and IBM.

The proposal was launched at the 2022 GESDA Summit. During her address at the event, CERN Director-General Fabiola Gianotti highlighted the potential of quantum computing and other associated quantum technologies to help achieve key UN Sustainable Development Goals.

Asit did for the creationofCERN, Geneva can play a key rolein bringing science and diplomacy to recognise theimportance of working together,in order to develop real-world applications for transformative technologies, says Gianotti, who is also a member of the GESDA Foundations board. The Open Quantum Institute will benefit from CERN's experience of uniting people from across the globe to push the frontiers of science and technology for the benefit of all. We will work to ensure that quantum technologies have a positive impact for all of society."

CERN has long recognised the potential of quantum technologies. In 2020, the Organization launched the CERN Quantum Technology Initiative (QTI), which is exploring the potential of these breakthrough new technologies for particle physics and beyond, in collaboration with its Member States and other key stakeholders. Today, the initiative runs 20 R&D projects, many of which are carried out in collaboration with leading technology companies through the CERN openlab framework.

By the nature of its research and the technologies it develops, CERN is well positioned to make significant contributions to the quantum revolution, says Alberto Di Meglio, head of CERN QTI and CERN openlab. Building on the Laboratorys collaborative culture and proven track record of developing breakthrough technologies, CERN QTI provides a platform for innovation.

This platform builds on national quantum initiatives in CERNs Member States and beyond, fostering pioneering new applications of quantum technologies both for science and society, explains Di Meglio. Experience and knowhow from the CERN QTI will feed into the Open Quantum Institute, helping to fulfil its mission of maximising the societal impact of these technologies.

As the next step in the process, the GESDA Foundation will launch a survey to help shape the priorities of the Open Quantum Institute, which will begin its incubation phase in 2023. Members of the institute will work to engage further with UN organisations, quantum scientists and industry leaders over the coming months.

Find out more on the GESDA website. Full details on the Open Quantum Institute can be found in the announcement published by the GESDA Foundation today.

On 1-4 November, CERN will host a special conference on the use of quantum technologies to support particle physics. Find out more about this here.

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CERN joins with leaders from research and industry to propose an Open Quantum Institute - CERN

As we look at some of the future technologies that are shaping the world today, investors can turn to exchange traded fund strategies to capture these growing opportunities.

In the recent webcast, Invest in Tomorrows Disruptive Technology Today, Sylvia Jablonski, CEO and CIO of Defiance ETFs, noted that the global quantum computing market could be worth $949 million by 2025, compared to a global market value of $89 million back in 2016, projecting a growth rate of more than 10 times by 2025.

Jablonski argued that growth will only accelerate in the quantum computing space as the technology matures. For example, the quantum computing growth of quantum computing systems produced by organizations in qubits was only two back in 1998 but has jumped to 128 as of 2019.

Looking ahead, Jablonski estimated a 43% compound growth rate of the quantum computing industry from 2020 through 2030.

Many will continue to adopt the quantum computing algorithm due to its polynomial runtime, which decreases the time needed to solve complex problems. For example, a problem that requires 3,300 years to solve under a classical algorithm with exponential runtime would take only take 11 minutes under a quantum algorithm with polynomial runtime.

Quantum computing is already being applied. The banking and finance sub-segment is expected to have the fastest growth in the global market mainly because of the growing adoption of quantum computing.

To access this growing opportunity, investors can take a look at the Defiance Quantum ETF (QTUM), which offers investors liquid, transparent, and low-cost access to companies developing and applying quantum computing and other transformative computing technologies by tracking the BlueStar Quantum Computing and Machine Learning Index.

Along with quantum computing, Paul Dellaquila, president of Defiance ETFs, highlighted the growth potential of next-generation communication services through 5G networking.

Dellaquila noted that the global 5G services market size was estimated at $64.54 billion in 2021 and is expected to hit around $1.87 trillion by 2030, growing at a CAGR of 44.63% during the forecast period of 2022 to 2030.

Looking ahead, Dellaquila anticipated 5G subscriptions to reach 4.4 billion globally by the end of 2027, or the majority of total global mobile subscriptions. More than 615 million 5G devices have already been shipped in 2021. Additionally, there will be an estimated 1.8 billion 5G connections by 2025, led by Asia and the United States.

Dellaquila also pointed out that 5G applications cover a vast swathe of global segments, including enterprises, consumer, and government sectors.

Investors can turn to something like the Defiance Next Gen Connectivity ETF (FIVG) for liquid, transparent, and low-cost access to companies engaged in the research and development or commercialization of systems and materials used in 5G communications.

In addition, Jablonski highlighted the first inverse blockchain ETF, Defiance Daily Short Digitizing the Economy ETF (IBIT), to serve sophisticated investors by offering a convenient and cost-effective way to short up to 80% of the blockchain ecosystem. IBIT aims to reflect the inverse performance of BLOK, the Amplify Transformational Data ETF, daily. IBIT may help reduce the drawdown of these underlying assets or simply benefit by going long with an ETF that captures the fall of the theme.

Financial advisors interested in learning more about disruptive technologies can watch the webcast here on demand.

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ETFs to Help Investors Capture Innovative Growth Ideas of Tomorrow - ETF Trends

For the Record provides information about recent professional activities and honors of University of Delaware faculty, staff, students and alumni.

Recent presentations, publications and honors include the following:

Erik T. Thostenson, professor of mechanical engineering and materials science and engineering delivered an invited presentation at the Gordon Research Conference onMultifunctional Materials and Structures. Gordon Research Conferences are a group of international conferences that cover frontier research in the sciences and their related technologies. The thematic topic of the 2022 conference was "Imparting Intelligence in and Through Self-Learning Materials and Structures."His presentation, "Scalable Manufacturing of Multifunctionalin situSensors," highlighted the recent research of his group on the processing of novel carbon nanotube-based sensors and their applications ranging from structural health monitoring of critical infrastructure to wearable garments for physical rehabilitation. Thostenson, who is a joint faculty member of UD'sCenter for Composite Materials, leads the Multifunctional Composites Laboratory. He has made pioneering research contributions in the processing, characterization and modeling of carbon nanotube-based composite materials. His scholarly research has been cited nearly23,000 timesin the scientific literature.

On Oct. 6, 2022, Sarah Trembanis, Associate in Arts Program professor of history, along with AAP graduate and current UD junior Haley Ryanpresented a talk at the Bethany Beach Fire Hall, entitled "Cat Hill Cemetery: An Investigation in Historic Sussex County." Their talk was based on research undertaken through a 2022 Community Engagement Initiative summer fellows grant and in partnership with the South Bethany Historical Society. Ryan ismajoring in history and minoring in both women and gender studies and domestic violence prevention and services.The project was the subject of a recent article in the Coastal Point newspaper.

Monet Lewis-Timmons, a doctoral candidate in the Department of English, successfully nominated the noted Delaware writer, teacher, suffragist, civil rights and peace activist Alice Dunbar-Nelson, for inclusion in the Delaware Women's Hall of Fame. At the induction event on Oct. 12, 2022, Lewis-Timmons provided the audience with a sketch of Dunbar-Nelson's life and accomplishments. Alice Dunbar-Nelson's papers are housed in the UD Library's Special Collections Department.

Jennifer Horney, professor and director of the Epidemiology Program within the College of Health Sciences, has published The COVID-19 Response: The Vital Role of the Public Health Professional. Published by Elsevier and geared toward graduate students in public health and those working in public health-adjacent fields, the book, available on Amazon, emphasizes the critical roles that the public health workforce played on the frontlines of the response to the COVID-19 pandemic and aims to bring visibility to the field. Public health is at a real pivot point, and we need to raise awareness of the breadth and depth of the roles of public health agencies and the workforce, Horney said. During the pandemic, a lot of people got wrapped up in the complexity or inconsistency of messaging from the CDC, but they didnt realize their friends and neighbors working in public health were responsible for standing up COVID test sites and vaccination campaigns in NASCAR stadiums or analyzing millions of COVID test results. The COVID-19 Response also delves into the disinvestment in public health following the 2008 financial crisis and pushes for a path forward that will be essential to meeting the future challenges and threats public health will undoubtedly face. Horney, who serves as core faculty for UDs Disaster Research Center, is also the editor for COVID-19, Frontline Responders and Mental Health: A Playbook for Delivering Resilient Public Health Systems Post-Pandemic, which covers the mental health impacts of the COVID-19 response. The book will be published by Emerald on Jan. 23, 2023.

Juliet Dee, associate professor of communication, is the coauthor of the chapter Religious Freedom versus Public Health: Discordant Legal Narratives in the Pandemic, 41-65, in Discordant Pandemic Narratives in the United States, edited by Shing-Ling S. Chen and Nicole Allaire and published by Lexington Books. She is also the author of an article on Fighting Back: Is Defamation Law a Double-Edged Sword for #MeToo Victims? in First Amendment Studies 55:2, 148-174 (2021).

Sarah Pragg, assistant policy scientist in the Joseph R. Biden, Jr. School of Public Policy and Administration's Institute of Public Administration, was presented with the 202223 University of Delaware Rising Star Award by the Delaware ACE Womens Network (DAWN). The Rising Star award is granted annually to one nominee from each institute of higher education in Delawarewho demonstrates the promise of future leadership.DAWN is the Delaware chapter of the AmericanCouncil on Education (ACE).The organization is committed to the advancement of women in higher education through developing, mentoring and promoting women leaders. Pragg acts as a principal investigator leading research projects that benefit Delaware's state and local governments; she supervises and mentors students providing them with real-world experiences; and she is a highly sought-after presenter and trainer.On Oct. 13, 2022, she was honored at the DAWN virtual celebration in celebration of her accomplishments.

Cameron Ibrahim, a doctoral student in theDepartment of Computer & Information Scienceswho is supervised by Ilya Safro, associate professor, received the Best Student Paper Award at the2022 IEEE High Performance Extreme Computing conference. Ibrahims paper "Constructing Optimal Contraction Trees for Tensor Network Quantum Circuit Simulation" was presented at the Quantum and Non-Deterministic Computing Session on Sept. 19, 2022. This conference, organized in cooperation with the Society for Industrial and Applied Mathematics (SIAM), is the largest of its kind in New England and features cutting edge work on AI, machine learning, graph analytics and quantum computing. Ibrahim's research is focused on algorithm design for speeding up quantum computing simulations and was funded by an Early-Concept Grants for Exploratory Research (EAGER) award from the National Science Foundation, an area of research related to efforts taking place in UD's Quantum Science and Engineering graduate program. The complete list of coauthors includes UDs Ibrahim and Safro, Danylo Lykov and Yuri Alexeev from Argonne National Laboratory and Zichang He from UC Santa Barbara.

To submit information for inclusion in For the Record, write to ocm@udel.edu and include For the Record in the subject line.

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For the Record, Oct. 14, 2022 | UDaily - UDaily

Unhackable communications devices, high-precision GPS and high-resolution medical imaging all have something in common. These technologies some under development and some already on the market all rely on the non-intuitive quantum phenomenon of entanglement.

Two quantum particles, like pairs of atoms or photons, can become entangled. That means a property of one particle is linked to a property of the other, and a change to one particle instantly affects the other particle, regardless of how far apart they are. This correlation is a key resource in quantum information technologies.

For the most part, quantum entanglement is still a subject of physics research, but its also a component of commercially available technologies, and it plays a starring role in the emerging quantum information processing industry.

The 2022 Nobel Prize in Physics recognized the profound legacy of Alain Aspect of France, John F. Clauser of the U.S. and Austrian Anton Zeilingers experimental work with quantum entanglement, which has personally touched me since the start of my graduate school career as a physicist. Anton Zeilinger was a mentor of my Ph.D. mentor, Paul Kwiat, which heavily influenced my dissertation on experimentally understanding decoherence in photonic entanglement.

Decoherence occurs when the environment interacts with a quantum object in this case a photon to knock it out of the quantum state of superposition. In superposition, a quantum object is isolated from the environment and exists in a strange blend of two opposite states at the same time, like a coin toss landing as both heads and tails. Superposition is necessary for two or more quantum objects to become entangled.

Quantum entanglement is a critical element of quantum information processing, and photonic entanglement of the type pioneered by the Nobel laureates is crucial for transmitting quantum information. Quantum entanglement can be used to build large-scale quantum communications networks.

On a path toward long-distance quantum networks, Jian-Wei Pan, one of Zeilingers former students, and colleagues demonstrated entanglement distribution to two locations separated by 764 miles (1,203 km) on Earth via satellite transmission. However, direct transmission rates of quantum information are limited due to loss, meaning too many photons get absorbed by matter in transit so not enough reach the destination.

Entanglement is critical for solving this roadblock, through the nascent technology of quantum repeaters. An important milestone for early quantum repeaters, called entanglement swapping, was demonstrated by Zeilinger and colleagues in 1998. Entanglement swapping links one each of two pairs of entangled photons, thereby entangling the two initially independent photons, which can be far apart from each other.

Perhaps the most well known quantum communications application is Quantum Key Distribution (QKD), which allows someone to securely distribute encryption keys. If those keys are stored properly, they will be secure, even from future powerful, code-breaking quantum computers.

While the first proposal for QKD did not explicitly require entanglement, an entanglement-based version was subsequently proposed. Shortly after this proposal came the first demonstration of the technique, through the air over a short distance on a table-top. The first demonstrations of entangement-based QKD were published by research groups led by Zeilinger, Kwiat and Nicolas Gisin were published in the same issue of Physical Review Letters in May 2000.

These entanglement-based distributed keys can be used to dramatically improve the security of communications. A first important demonstration along these lines was from the Zeilinger group, which conducted a bank wire transfer in Vienna, Austria, in 2004. In this case, the two halves of the QKD system were located at the headquarters of a large bank and the Vienna City Hall. The optical fibers that carried the photons were installed in the Vienna sewer system and spanned nine-tenths of a mile (1.45 km).

Today, there are a handful of companies that have commercialized quantum key distribution technology, including my groups collaborator Qubitekk, which focuses on an entanglement-based approach to QKD. With a more recent commercial Qubitekk system, my colleagues and I demonstrated secure smart grid communications in Chattanooga, Tennessee.

Quantum communications, computing and sensing technologies are of great interest to the military and intelligence communities. Quantum entanglement also promises to boost medical imaging through optical sensing and high-resolution radio frequency detection, which could also improve GPS positioning. Theres even a company gearing up to offer entanglement-as-a-service by providing customers with network access to entangled qubits for secure communications.

There are many other quantum applications that have been proposed and have yet to be invented that will be enabled by future entangled quantum networks. Quantum computers will perhaps have the most direct impact on society by enabling direct simulation of problems that do not scale well on conventional digital computers. In general, quantum computers produce complex entangled networks when they are operating. These computers could have huge impacts on society, ranging from reducing energy consumption to developing personally tailored medicine.

Finally, entangled quantum sensor networks promise the capability to measure theorized phenomena, such as dark matter, that cannot be seen with todays conventional technology. The strangeness of quantum mechanics, elucidated through decades of fundamental experimental and theoretical work, has given rise to a new burgeoning global quantum industry.

Nicholas Peters, Joint Faculty, University of Tennessee

This article is republished from The Conversation under a Creative Commons license. Read the original article.

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