As teams around the world begin to scale up... quantum computing systems, the need to connect chips together increasingly appears as a bottleneck. Our UK team just demonstrated a time-encoded lab-to-lab qubit interconnect over 250m of standard telecom fiber with 99.6% ±0.2% fidelity. When combined with our ultra-low-loss edge coupler, this fiber interconnect becomes a compelling component of our path to large systems.show more

PsiQuantum
21,955 Aufrufe • vor 1 Jahr
The Next Megacycle in Computing is Quantum—and Dynex is... playing a leading role! Today, we’re proud to announce the publication of our international patent (WO/2024/231907). This is a major step in advancing neuromorphic quantum computing. Dynex’s innovation shows method and system for large-scale computation of quantum algorithms using neuromorphic quantum computing. This milestone positions Dynex as a key player in the quantum era, empowering industries to solving real world problems at scale that will define this new megacycle of computing. 🔗 Learn more:show more

Dynex
12,928 Aufrufe • vor 1 Jahr
The difference between SEALSQ silicon-based spin-qubit QPUs and quantum... processors built on superconducting circuits or trapped ions comes down to physics, manufacturability, and long-term industrial scalability. SEALSQ’s approach uses electron spins confined in silicon semiconductor structures—essentially quantum dots fabricated with CMOS-compatible processes—where the qubit is the spin state of an electron rather than a macroscopic electrical current or a free ion. This makes spin qubits orders of magnitude smaller, potentially allowing millions of qubits on a single silicon wafer, and critically aligns the technology with existing semiconductor fabs, supply chains, and design tools. In contrast, superconducting qubits rely on exotic materials and microwave resonators that are physically large, wiring-heavy, and difficult to scale beyond a few thousand qubits without massive cryogenic and control overhead. Trapped-ion systems achieve excellent qubit coherence but depend on ultra-high vacuum chambers, precision lasers, and optical alignment, making them closer to scientific instruments than manufacturable chips. Silicon spin qubits also benefit from long intrinsic coherence times (especially in isotopically purified silicon), low power dissipation, and a natural path to tight integration with classical control, cryogenic electronics, and security primitives—an area where SEALSQ’s semiconductor and hardware-security DNA becomes a strategic advantage. The trade-off is that spin qubits are technically harder to control at the single-qubit level and are earlier in large-scale deployment than superconducting systems, but if solved, they offer the most credible route to industrial-scale, cost-effective, secure quantum processors, rather than lab-scale demonstrations.show more

Carlos Creus Moreira
19,616 Aufrufe • vor 5 Monaten
🚨 QUANTUM BREAKTHROUGH: SCIENTISTS JUST SOLVED ONE OF PHYSICS’... BIGGEST UNSOLVED PROBLEMS. Researchers in Japan have successfully detected an elusive quantum entanglement pattern known as a “W state” something physicists have struggled to measure for decades. Why does this matter? Because W states are considered one of the key building blocks for: • quantum teleportation • ultra-secure communication • next-generation quantum internet • massively powerful quantum computers The breakthrough allows scientists to identify complex entangled photon states in a single measurement instead of using extremely slow quantum tomography. In simple terms: they found a faster way to “read” deeply entangled quantum systems. The team built a stable 3-photon optical quantum circuit capable of detecting these exotic states with high fidelity a major step toward scalable quantum networks and photonic quantum computing. This is the kind of breakthrough that moves quantum technology from fragile lab experiments… toward real-world infrastructure. The future internet may not send information through electrical signals alone. It may send reality itself through entanglement. Follow for more future physics and quantum breakthroughs.show more

TheNewPhysics
21,763 Aufrufe • vor 2 Monaten
As we reconnect with nature and the world around... us, Spring represents a time of looking forward; as we plant the seeds for our year ahead. This is Sense of Spring, a collection of few pieces to welcome the new season. Listen to it atshow more

Ludovico Einaudi
23,285 Aufrufe • vor 2 Jahren
🚨 Quantum computing just got a massive upgrade using…... frozen neon. Not silicon. Not exotic superconductors. Neon. Solid. Frozen. Scientists just showed electron qubits can survive at ~400 mK (WAY warmer than usual quantum systems) while keeping coherence. That’s huge. Why it matters: • Most quantum computers need near absolute zero • Heat = noise = system failure • Scaling has been the bottleneck But this changes the game Electrons floating on solid neon stay stable Low noise High fidelity And crucially… more scalable Translation We might not need insanely extreme cooling to build real quantum machines anymore. This isn’t just a material upgrade it’s a path to practical quantum computing. The real question: What happens when stability stops being the limitation? Follow me I break down the physics behind the future.show more

TheNewPhysics
18,593 Aufrufe • vor 2 Monaten
1/ We're thrilled to share our preprint on Deep3P... - a new approach that takes us on a deep dive into the world of brain tumors, using three-photon microscopy and #AI. This exciting endeavor is brought to life together with the amazing Prevedel Lab !show more

Varun Venkataramani
67,453 Aufrufe • vor 3 Jahren
Another first for our AI fleet... a supercomputing cluster... of NVIDIA GB300s with 4600+ GPUs and featuring next gen InfiniBand. First of many as we scale to hundreds of thousands of GB300s across our DCs, and rethink every layer of the stack across silicon, systems, and software to support next gen AI workloads.show more

Satya Nadella
723,880 Aufrufe • vor 9 Monaten
🚨 QUANTUM COMPUTING JUST HIT A NEW LEVEL Europe’s... JUPITER supercomputer has reportedly achieved a world-record 50-qubit quantum simulation. That may sound small… But simulating 50 interacting qubits pushes classical computing close to its limits. Why this matters: Quantum systems become exponentially harder to simulate as they grow. At a certain point… even the most powerful traditional supercomputers struggle to predict what quantum systems are doing. That’s where quantum computing changes everything. Researchers are now building machines capable of: • simulating new materials • designing future medicines • solving optimization problems impossible for classical computers • modeling reality at the quantum level itself The race is no longer just about faster computers. It’s about building entirely new forms of computation. The next technological revolution may not run on silicon alone… but on quantum states existing in multiple possibilities at once. Follow for more future physics and quantum breakthroughs.show more

TheNewPhysics
20,725 Aufrufe • vor 2 Monaten
🚨 SCIENTISTS JUST TRAPPED A SINGLE ATOM ON A... PHOTONIC CHIP AND IT COULD CHANGE QUANTUM COMPUTING FOREVER. Researchers at Quantum Source and the Weizmann Institute have successfully trapped a single rubidium atom just 150–200 nanometers from a photonic resonator on a chip. That’s close enough for the atom to directly interact with light flowing through the circuit. Why this matters: Quantum computing has always had two separate superpowers: • Neutral atoms → ultra-stable quantum states • Photonic chips → fast, scalable light-based circuits The problem? They’ve never played well together. Atoms are fragile near surfaces and photonic chips are tiny. Now they’ve cracked it with a new “single-stroke loading” technique: a carefully shaped optical field slows the atom down, catches it, and lets it communicate directly with photons inside the chip. The deeper implication is huge: This is the first real bridge between two of the most promising quantum platforms. It opens the door to: • chip-scale quantum networks • photonic quantum processors • ultra-secure quantum communication • quantum internet infrastructure • and scalable quantum systems built with semiconductor-style fabrication For the first time, a single atom isn’t just sitting near the chip it’s actively changing how photons behave inside the resonator. The two worlds of quantum computing are finally starting to merge. What happens when single atoms become programmable building blocks inside photonic processors? Follow for more frontier physics and future-tech discoveries.show more

TheNewPhysics
16,653 Aufrufe • vor 1 Monat
As we wrapped up celebrating the 2nd Anniversary of... Lies of P with all of you this past week, our team at ROUND8 Studio also took a moment to mark the game’s second birthday together. 🥂✨ These small moments mean a lot and we wanted to share them with you as a final touch to close out our bday celebrations. Thank you, Citizens of Krat, for walking this journey with us. Your passion and support continue to inspire everything we create. 🫶 #LiesofPshow more

Lies of P
39,264 Aufrufe • vor 10 Monaten
GROWTH There's a moment in every organization's life when... growth stops being incremental and becomes exponential. For Irys, that moment arrived over the past few weeks. As momentum scales globally, we're committed to ensuring our voice resonates with communities worldwide, in as many languages as possible. Today, we're excited to open up our regional discord channels, as well as introduce the faces behind our first cohort of Regional Captains: 🇹🇷 Turkey — Tello 🇷🇺 Russia — Sownju 🇨🇳 China — 0x政 + 心怡 🌧️🌈☀️ + 𝙊𝙭𝘾𝙝𝙞𝙣𝙚 🇺🇦 Ukraine — Sadnoboy (sol trapper) 🇰🇷 Korea — Dorami 🇮🇩 Indonesia — satyaxbt This team of mavens will be working closely with our core team to amplify Irys through localized content and grassroots community growth. As a team, we work extra hard to meet our standards for excellence, so we're starting with these regions to maintain focus. But over the comings months, we'll start expanding our focus into more and more regions. Stay tuned. Accelerate. Irys.show more

Irys (✧ᴗ✧)
80,796 Aufrufe • vor 1 Jahr
Synk x Secret Network: A Game-Changing Partnership We’re proud... to announce our official partnership with Secret Network and, more specifically, with the Secret Network Foundation (SNF) as part of their exclusive Builders Program. This collaboration marks a significant milestone for $Synk, as we join a select group of innovators working to shape the future of confidential computing. Through this partnership, we gain unparalleled access to the Decentralized Confidential Computing (DeCC) tools as well as joining the #DeCC Alliance, fostering deeper integrations and advancements in privacy-first technologies. As part of this collaboration, the Synk Firefox App will soon be positioned as the default private browser within their ecosystem, solidifying Synk’s role as a key player in the Web3 space. This is just the beginning. With Secret Network as a major partner, Synk is entering a transformative phase. Together, we will integrate groundbreaking applications into the Synk OS, leveraging the full potential of confidential computing to deliver unmatched tools and experiences to our users. The future of privacy and Web3 innovation is here—and it’s powered by Synk and Secret Network.show more

Kard
48,147 Aufrufe • vor 1 Jahr
As the energy grid undergoes a transformation from a... centralised to a #distributed one, it is essential to facilitate this shift with a highly #AgileMarket. Our devoted team of developers is actively steering this transition. Explore our #DevStatistics for 2023. 🚀show more

Powerledger
28,920 Aufrufe • vor 2 Jahren
🚨Dynex Core v2 Has Arrived – Redefining Quantum Circuit... Computation While most quantum platforms are still limited to executing small-scale gate circuits—often insufficient for solving real-world problems—Dynex now sets a new industry benchmark in performance, scalability, and practical utility. We are proud to announce the official rollout of Dynex Core v2, now available to all users. This new core has been rigorously stress-tested over the past several months and represents the culmination of our research and scientific work—a direct technological milestone on the path toward our proprietary Apollo chip, the first room-temperature quantum-mechanical processor. Dynex Core v2 delivers unprecedented computational power, enabling the execution of complex quantum gate circuits at sizes and speeds previously thought unattainable. It outperforms all current industry platforms—and our own previous versions—by orders of magnitude. 🔬 For example: Dynex successfully computes an n-bit quantum adder circuit with 1,222 qubits in just over 30 seconds—a level of performance never before seen in the quantum space. With Core v2, Dynex continues to lead the quantum computing revolution with real-world, scalable solutions.show more

Dynex
25,692 Aufrufe • vor 1 Jahr
I send my warmest wishes as Muslims around the... world begin the holy month of #Ramadan. This is a time to come together in a spirit of understanding & compassion. Let us be inspired & build a more just & equitable world for all. Ramadan Kareem.show more

António Guterres
811,662 Aufrufe • vor 3 Jahren
🚨 BREAKING NEWS 🚨 SCIENTISTS JUST TELEPORTED QUANTUM INFORMATION... THROUGH THE EXISTING INTERNET. Not in a lab vacuum. Not through a special quantum-only cable. They did it through real internet fiber while normal internet traffic (400 Gbps) was still flowing. Researchers at Northwestern University successfully transmitted a quantum state of light across 30 km of active fiber optic cable, proving quantum signals can coexist with the classical internet we already use. Why this matters: Today’s internet moves classical bits. A quantum internet could enable virtually unhackable communication, distributed quantum computing, and ultra-secure networks. Quantum information cannot be copied without disturbing it a built-in security feature. The deeper implication: The internet may evolve from moving classical information into moving quantum states themselves. At that point, the line between communication and computation begins to disappear. We may be watching the early construction of an entirely new layer of civilization. Follow for more frontier physics and future technology.show more

TheNewPhysics
28,665 Aufrufe • vor 1 Monat
As part of improving everything, I've made it my... mission to update *all* our website pages, starting with a new Ads Overview. Excited to begin using a refreshed style as part of this, loosely inspired by the Voyager Golden Record. Live now:show more

Benji Taylor
365,745 Aufrufe • vor 15 Tagen
🚨 SCIENTISTS JUST DETECTED QUANTUM ENTANGLEMENT IN A CENTIMETER-SIZED... PIECE OF METAL SOMETHING ONCE THOUGHT IMPOSSIBLE AT THIS SCALE. Researchers at the Vienna University of Technology have found clear evidence of high-degree quantum entanglement among particles inside a macroscopic crystal of a “strange metal” made of cerium, palladium, and silicon. This is one of the first times multipartite entanglement has been convincingly demonstrated in a solid object large enough to hold in your hand. Strange metals are already bizarre their electrons don’t behave like normal individual particles. Now it appears large numbers of them can act as a single, highly entangled quantum system even at everyday scales. Why this matters: • Quantum entanglement has almost always been limited to tiny numbers of particles in carefully isolated lab conditions • This experiment shows entanglement can persist collectively across a visible, macroscopic object • It was measured using neutron scattering, which revealed the material responding as one entangled system rather than many independent particles • This bridges the gap between microscopic quantum effects and real-world materials The deeper implication: For decades, physicists have wondered whether the strange, collective behavior seen in certain quantum materials could be explained by underlying entanglement. This result strongly suggests the answer is yes even at scales we can see and touch. It doesn’t mean your coffee mug is in a quantum superposition, but it does show that quantum correlations can dominate the physics of certain solids in ways we’re only beginning to understand. This kind of macroscopic quantum behavior could eventually help us design new materials with exotic properties, or give us new tools to study fundamental questions about quantum mechanics itself. How do you think discovering entanglement at this scale changes our understanding of where the quantum world ends and the classical world begins? Follow for more frontier quantum physics and materials science.show more

TheNewPhysics
17,001 Aufrufe • vor 27 Tagen
Introducing our new logo!⚡ This redesign symbolizes our step... forward in decentralized cloud computing, setting one of the stones for a successful market entry. The letters n-u-c-o together symbolize the fusion of data, technology, and security, with the standout green dot representing activity ON, and the presence of electrical and electronic energy. Our complete re-brand aligns with our mission to become a leader in the cloud sector and will visually present PRO to large enterprises in the coming launch! ☁️show more

nuco.cloud
63,377 Aufrufe • vor 2 Jahren