By assembling silver nanoparticles into precise crystal patterns, researchers captured a long-theorized state of matter that had never been stabilized before. (Artist’s concept.) Credit: SciTechDaily.comScientists have finally captured a hidden state of matter, revealing a long-predicted phase with intriguing quantum potential.Researchers from Brown University and the University of Michigan College of Engineering have succeeded in stabilizing a previously elusive state of matter that had existed only in theoretical models.Using carefully engineered nanoparticles as building blocks, the team created a new material structure that locks in a fleeting intermediate state between two of the most common crystal arrangements found in metals. The achievement not only provides new insight into how materials change their internal structure, but also reveals unusual optical properties that could one day prove useful for quantum computing and other quantum information technologies.The findings were published in the journal Science.More broadly, the work demonstrates a powerful new strategy for designing materials from custom-made nanoparticles, opening possibilities for creating entirely new materials with tailored characteristics.“Our work is a little bit like kids playing with LEGO blocks,” said Ou Chen, an associate professor of chemistry at Brown and a corresponding author of the research. “We synthesize unique nanoscale building blocks and stack them into interesting structures. In this case, we were able to stabilize these theorized transitional structures and demonstrate important quantum optical properties.”Using finely tuned nanoscale building blocks, researchers from Brown University and the University of Michigan College of Engineering have stabilized a fleeting structural phase of matter that had been predicted theoretically but never before stabilized in a physical material. Credit: Chen Lab / Brown UniversityCapturing a Long-Predicted Crystal TransitionMany metals 

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Hidden Phase of Matter Finally Captured After Decades of Predictions

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Insider Brief BW Digital and NUS College of Design and Engineering have launched a research collaboration focused on developing frameworks for quantum-ready data centre infrastructure in Southeast Asia. The 18-month project will study infrastructure requirements for quantum-classical computing integration, including thermal, cryogenic, power, connectivity, and operational considerations. Researchers will examine how tropical environments affect quantum infrastructure deployment and develop planning tools and readiness frameworks for future facilities. Photo from Pexels by panumas nikhomkhai. PRESS RELEASE — BW Digital and the National University of Singapore’s College of Design and Engineering (NUS CDE) today announced a strategic research collaboration to develop the foundational engineering frameworks required for next-generation quantum-ready digital infrastructure in the tropical hubs of Southeast Asia. Announced at DCD&gt;Connect | APAC 2026, Data Centre Dynamics’ flagship digital infrastructure conference in Bali, the collaboration deepens BW Digital’s engagement with Singapore’s AI and quantum research ecosystem and supports its investments in future-ready digital infrastructure. “Quantum computing infrastructure is becoming an increasingly relevant focus for the data centre industry. ” — said, Florent Blot, Chief Business Officer, BW Digital In the next 18 months, the partnership will focus on defining the “minimum viable infrastructure envelope” required to support future quantum-classical computing integration within modern data centres. Areas of research include structural design, thermal, cryogenic and power systems, environmental stability and quantum-safe integration, connectivity and operations. A key area of study will be how tropical operating environments, such as Singapore and Batam, present unique infrastructure challenges for quantum systems, particularly in relation to humidity management, heat rejection, vibration control and electromagnetic s

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BW Digital and NUS to Advance Quantum-Ready Data Centres for Southeast Asia

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Insider Brief Pasqal has inaugurated Italy’s first neutral-atom quantum computer at CINECA in Bologna, expanding Europe’s hybrid HPC-quantum computing infrastructure. The 140-qubit Pasqal Orion system, named SOL, is integrated with the Leonardo supercomputer to support hybrid quantum-classical workloads. The deployment is Pasqal’s third EuroHPC-linked quantum system in Europe, following earlier installations in France and Germany. PRESS RELEASE — Pasqal, one of the global leaders in neutral-atom quantum computing, today announced the inauguration of Europe’s third Pasqal quantum computer hosted at CINECA, Italy’s largest public supercomputing operator and a member of the Italian Research Center on High Performance Computing (ICSC), Big Data, and Quantum Computing, in Bologna, Italy. The system was unveiled at the DAMA Technopole in Emilia-Romagna during a ribbon-cutting ceremony marking the launch of new high-performance computing (HPC) and quantum computing systems procured by the EuroHPC Joint Undertaking (JU) and co-financed together with the Italy’s Ministry of University and Research through ICSC, including the system delivered by Pasqal. This milestone marks a major step forward in the deployment of Europe’s hybrid HPC and quantum computing infrastructure. The system is Italy’s first neutral-atom quantum computer. Named SOL, it is a Pasqal Orion quantum processing unity (QPU) featuring 140 qubits. It has been engineered for tight integration with the Leonardo pre-exascale EuroHPC supercomputer — one of the world’s most powerful HPC platforms, ranked 10th on the&nbsp;Top500 list– representing an important step forward in quantum accelerated high-performance computing. At CINECA, Pasqal deploys its HPC–quantum integration stack exposing the QPU as a native resource within the supercomputing environment, enabling hybrid workflows that combine quantum and classical computing resources through standard HPC scheduling and operational mechanisms. The deployment build

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hybrid HPC-quantum computing infrastructure. The 140-qubit Pasqal Orion system, named...

Pasqal Launches Italy’s First Neutral-Atom Quantum Computer at CINECA

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Insider Brief Alice &amp; Bob unveiled the Helium Quantum System, expanding from cat-qubit chip development to offering a complete on-premise quantum computing platform designed for fault-tolerant research. The Helium system is engineered to encode the company’s first logical qubit using as few as 18 cat-qubits and is designed to support future upgrades, including a planned 48 cat-qubit processor featuring multiple logical qubits. The platform integrates with existing high-performance computing environments through tools such as Slurm compatibility, the open-source QRMI library and Alice &amp; Bob’s Felis software framework, while the new Starboard interface provides system monitoring and workload management capabilities. PRESS RELEASE — Alice &amp; Bob, a leader in fault-tolerant quantum computing, today unveiled the Helium Quantum System, marking the company’s expansion from developing cat-qubit chips to delivering a complete quantum computing system for&nbsp;on-premise deployment. The Helium Quantum System has been engineered to encode Alice &amp; Bob’s first logical qubit with as few as 18 cat-qubits. From the processor architecture to the cabling, control electronics and software stack, the entire system is optimized for quantum error correction. Designed as an upgradeable platform, the quantum system will also support the next 48 cat-qubit chip on Alice &amp; Bob’s roadmap – expected to feature multiple logical qubits. Alice &amp; Bob is inviting research partners to conduct experiments on the Helium Quantum System and collaborate with the company on advancing fault tolerant quantum computing research. The system enables researchers to integrate quantum and classical computing resources within a single computing infrastructure, such as those found at high-performance computing (HPC) centers. By providing direct access to cat-qubit architecture, Alice &amp; Bob offers a platform for research into quantum error correction, logical qubits and the path to fault-to

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Alice & Bob Unveils First Quantum System Available For Research Partners

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I saw this video https://youtu.be/XAYh7HRjzs0 My question is have Majorana Fermions been found anywhere in the Universe since they were theorized in 1937? If not then what is Microsoft Harping about? What is the real deal here? submitted by /u/Significant_Wish7652 [link] [comments]

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Microsofts Majorana 2 Topological Quantum Computer

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A 412-Page Federal Rule Could Reshape American Science Forever. The Comment Period Closes in July 13, 2026.1950: A radiochemist at the Argonne National Laboratory working with radioactive materials. (Photo by Keystone/Getty Images)Getty ImagesThe US scientific enterprise has been the most successful generator of technology advancement, intellectual property, and GDP in history. The internet, smartphones, vaccines, Google, semiconductors, artificial intelligence, fracking, batteries, and SpaceX are just some examples of technologies resulting from federally funded research and development. The success of these programs has been built on decades of experience to ensure that federal agencies operate independently of political agendas and financial conflicts of interest. On May 26, 2026, the Trump Administration announced a proposed rule that would fundamentally restructure how federal research dollars are awarded.The rule proposes that senior political appointees review federally funded research results, instead of using the peer review system, where multiple outside experts review the scientific methodology, results, and conclusions for potential errors or conflicts. Further, the rule bans any collaboration with foreign researchers and stops all federal funding to publish scientific results for public transparency. The rulemaking has a 45 day open comment period, half the time that is typically given. This is not a change that impacts federal scientists, this would fundamentally change the way that science is conducted in the US. Such a rule risks surrendering American leadership in science and innovation in combination with cutting research funding and removing the US from participating in global efforts like the WHO and Paris Agreement.What the Rule Actually DoesThe Office of Management and Budget, which is in charge of federal budget regulations and agency management, published the 412 page rule proposal on May 29, 2026. The stated objective is to “improving transp

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Hidden Phase of Matter Finally Captured After Decades of Predictions

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BW Digital and NUS to Advance Quantum-Ready Data Centres for Southeast Asia

Pasqal Launches Italy’s First Neutral-Atom Quantum Computer at CINECA

Alice & Bob Unveils First Quantum System Available For Research Partners

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Hidden Phase of Matter Finally Captured After Decades of Predictions

BW Digital and NUS to Advance Quantum-Ready Data Centres for Southeast Asia

Pasqal Launches Italy’s First Neutral-Atom Quantum Computer at CINECA

Alice & Bob Unveils First Quantum System Available For Research Partners

Microsofts Majorana 2 Topological Quantum Computer

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