entangled dot cloud
MIT engineers develop a magnetic transistor for more energy-efficient electronics
Transistors, the building blocks of modern electronics, are typically made of silicon. Because it’s a semiconductor, this material can control the flow of electricity in a circuit. But silicon has fundamental physical limits that restrict how compact and energy-efficient a transistor can be.MIT researchers have now replaced silicon with a magnetic semiconductor, creating a magnetic transistor that could enable smaller, faster, and more energy-efficient circuits. The material’s magnetism strongly
New Advances Bring the Era of Quantum Computers Closer Than Ever
Some 30 years ago, the mathematician Peter Shor took a niche physics project — the dream of building a computer based on the counterintuitive rules of quantum mechanics — and shook the world. Shor worked out a way for quantum computers to swiftly solve a couple of math problems that classical computers could complete only after many billions of years. Those two math problems happened to be the…Source
A tiny detector for microwave photons could advance quantum tech
Detecting a single particle of light is hard; detecting a single microwave photon is even harder. Microwave photons, the tiny packets of electromagnetic radiation used in current technologies like Wi-Fi and radar, carry far less energy than visible light. They are about 100,000 times weaker than optical photons.
Small quantum system outperforms large classical networks in real-world forecasting
Can a handful of atoms outperform a much larger digital neural network on a real-world task? The answer may be yes. In a study published in Physical Review Letters, a team led by Prof. Peng Xinhua and Assoc. Prof. Li Zhaokai from the University of Science and Technology of China of the Chinese Academy of Sciences demonstrated that a quantum processor comprising just nine interacting spins outperforms classical networks with thousands of nodes in realistic weather forecasting tasks.
IBM quantum processor achieves highest fidelity calculations for the longest period of time on record
Scientists have developed a novel approach to error correction that resulted in the highest-ever fidelity of entangled, logical qubits on a superconducting quantum processor.
The secrets of black holes and the Higgs mass could be hidden in a 7-dimensional geometry
One of the greatest mysteries of modern physics, the "black hole information paradox," might have finally found an elegant solution, and the answer could also reveal the origins of the mass of fundamental particles.
Quantum coherence could be preserved at large scales in realistic environments
Quantum states are notoriously fragile, and can be destroyed simply through interactions, measurements, and exposure to their surrounding environments. In a new theoretical study published in Physical Review X, Rohan Mittal and colleagues at the University of Cologne have discovered a new way to protect quantum behavior on large scales within systems driven far from equilibrium. Their results could have promising implications for the design of more robust quantum devices.
Show HN: WayInfer – Native GGUF engine that runs models larger than your RAM
We built a native inference engine that runs quantized LLMs directly from SSD using memory-mapped I/O. The model never fully loads into RAM — the OS pages weights on demand as each layer executes.*What it does:*
- Mixtral 8x22B (80GB, 141B params) runs on a machine with 48GB RAM
- Model loads in 0.3 seconds (vs 190s with llama.cpp)
- Produces correct output: "What is 2+2?" → "The sum of 2 and 2 is 4."
- Zero dependencies — custom tensor engine, custom GGUF parser, no ggm
Show HN: Open-source distributed quantum compute network
Hey HN. I'm Colton (YC S21, ex-Acorns), one of the founders of Postquant Labs. My cofounder Richard is a cryptographer out of Draper Labs and DARPA. We're building Quip.Network, the first distributed quantum compute network. We just opened our testnet and wanted to share it here.The basic problem: quantum hardware is here and already competitive on certain optimization problems, but for most people, there's no way to access it. The machines cost millions and the hardware and resea
Scientists reveal hidden interface in superconducting qubit material
Researchers from the U.S. Department of Energy's (DOE) Brookhaven National Laboratory and DOE's Pacific Northwest National Laboratory (PNNL) have uncovered an unexpected interface layer that may be ...
SpaceX Starship could slash travel time to Uranus in half
A new concept suggests SpaceX’s Starship could revolutionize a future mission to Uranus, one of the solar system’s most overlooked planets. By refueling in orbit and helping slow the spacecraft on arrival, it could cut travel time nearly in half. That’s a big deal for a mission that would otherwise take over a decade just to arrive. If it works, it could finally open the door to studying this strange, tilted world up close.
The Mad Scramble to Power AI Is Rewiring the US Grid
With data center power demand expected to nearly triple by 2030, tech companies are bankrolling new plants and even their own “shadow grid.” Unless you’ve had your head in the sand, you’re likely aware that AI has a major energy problem. And as AI companies scramble to source power for their ever-expanding fleet of data centers, the technology is reshaping the US grid.After more than a decade of flat growth, nationwide electricity demand has been climbing 1.7 percent annually s
‘It’s a real shock’: quantum-computing breakthroughs pose imminent risks to cybersecurity
<p>Nature, Published online: 02 April 2026; <a href="https://www.nature.com/articles/d41586-026-01054-1">doi:10.1038/d41586-026-01054-1</a></p>Two analyses suggest that quantum computers could crack ubiquitous security keys and cryptocurrencies before the decade is over.
Quantum entanglement between electrons and ions captured at attosecond timescale
Quantum mechanics is extremely successful at describing the behavior of matter at the atomic level. This success forces one to accept that certain aspects of physical reality go far beyond our intuition. Among these, none is more intriguing than the concept of quantum entanglement, which mathematically describes how two particles that have at some point in the past interacted with each other retain a memory of this interaction to such an extent that acting on one of the two particles has a measu
Laser-powered wireless hits 360 Gbps and uses half the energy of Wi-Fi
A new breakthrough in wireless technology could dramatically boost internet speeds while cutting energy use—by switching from radio waves to light. Researchers have developed a tiny chip packed with dozens of miniature lasers that can transmit massive amounts of data simultaneously, reaching speeds over 360 gigabits per second in early tests.
This New Quantum Theory Could Change Everything We Know About the Big Bang
Scientists have proposed a bold new explanation for how the universe began, suggesting the Big Bang’s rapid expansion may have emerged naturally from the laws of quantum gravity. Credit: Shutterstock ...
Bizarre quantum experiment just proved atoms can exist in two places at once
You can say the universe has a split personality. Or better said, our physical models of the universe are the ones fractured.
Quantum Circuits Have a Hidden Weakness and It Changes Everything
A new theoretical study has taken a close look at how noise influences these circuits. The results show that noise places a ...
Quantum Computing Built An Impossible Molecule — With Big Implications
An international team of scientists proved the never-before-seen molecule's exotic nature using a quantum computer, ...
Useful quantum computers could be built with as few as 10,000 qubits, team finds
Quantum computers of the future may be closer to reality thanks to new research from Caltech and Oratomic, a Caltech-linked start-up company. Theorists and experimentalists teamed up to develop a new ...