Can you prove whether a large quantum system truly behaves according to the weird and wonderful rules of quantum mechanics—or if it just looks like it does? In a new study, physicists from Leiden, Beijing and Hangzhou found the answer to this question.
Astronomers have uncovered a massive, hidden exoplanet nestled in the dusty disc of a young star—MP Mus—by combining cutting-edge data from the ALMA observatory and ESA’s Gaia mission. Initially thought to be planet-free, the star’s surrounding disc appeared deceptively empty. But new observations and a telltale stellar “wobble” pointed to a Jupiter-sized gas giant forming within the disc’s obscured gaps. This marks the first time a planet in such a disc has been detected using these tools, open
A new leap in lab automation is shaking up how scientists discover materials. By switching from slow, traditional methods to real-time, dynamic chemical experiments, researchers have created a self-driving lab that collects 10 times more data, drastically accelerating progress. This new system not only saves time and resources but also paves the way for faster breakthroughs in clean energy, electronics, and sustainability—bringing us closer to a future where lab discoveries happen in days, not y
Key points Quantum science is helping develop new technologies that have the potential to solve some of the world's greatest challenges. Some quantum
European researchers are developing quantum computers using light and glass, in a collaboration that promises breakthroughs in computing power, battery technology and scientific discovery.By Anthony ...
D-Wave dropped its share prices by 11.8 percent week-on-week as investors unloaded positions over fears that the aggressive ...
Scientists in China have developed a precise method to grow titanium dioxide nanorod arrays with controllable spacing, independent of rod size. This innovation boosts solar cell efficiency by allowing light capture and charge movement to be fine-tuned.
Researchers have cracked a fundamental optical challenge: how to control both angle and wavelength of light independently—a problem that’s limited imaging and display technologies for years. By harnessing the power of radiation directionality and engineering bilayer metagratings with unique symmetry properties, they’ve decoupled these two variables for the first time. Their precise nanofabrication techniques allow for ultra-flat, highly aligned structures that selectively reflect light only at s
Using an advanced Monte Carlo method, Caltech researchers found a way to tame the infinite complexity of Feynman diagrams and solve the long-standing polaron problem, unlocking deeper understanding of electron flow in tricky materials.
Hi everyone,Over the past few months, I’ve been working on a new library and research paper that unify structure-preserving matrix transformations within a high-dimensional framework (hypersphere and hypercubes).Today I’m excited to share: MatrixTransformer—a Python library and paper built around a 16-dimensional decision hypercube that enables smooth, interpretable transitions between matrix types likeSymmetricHermitianToeplitzPositive DefiniteDiagonalSparse...and many moreIt is a lightweight,
Everything works. You just can’t see it. You came too early. It is running. It is just running in 2039.2039.js is a fully quantum-aligned, emotion-routed, consciousness-synced web framework designed for realities not yet accessible in your temporal dimension.It introduces bleeding-edge technologies such as:- `useBrainWaveSync()` – hooks into your local consciousness stream - `syncReality()` – syncs with multiversal device IDs - `<ZalgoButton>` – renders emotional chaos in stable mode
In the fledgling field of quantum computing, IonQ ( IONQ 2.07%) has emerged as one of the leading start-up investment options ...
Quantum computing stocks have captured the attention of investors due to their immense potential and the considerable risks facing the emerging industry.
A new proposal makes the case that paraparticles — a new category of quantum particle — could be created in exotic materials.
Imagine a star powered not by nuclear fusion, but by one of the universe’s greatest mysteries—dark matter. Scientists have proposed the existence of “dark dwarfs,” strange glowing objects potentially lurking at the center of our galaxy. These stars might form when brown dwarfs absorb enough dark matter to prevent cooling, transforming into long-lasting beacons of invisible energy. A specific form of lithium could give them away, and if detected, these eerie objects might reveal the true nature o
A 2.35-billion-year-old Moon rock that fell to Earth in Africa is rewriting what we know about lunar volcanism. This rare meteorite, studied by UK scientists and unveiled at a major geochemistry conference, reveals that the Moon was volcanically active far longer than previously thought. With a unique chemical makeup and an age that bridges a billion-year gap in Moon rock samples, it suggests the Moon had internal heat sources that persisted for ages.
New supercomputer simulations suggest the Milky Way could be surrounded by dozens more faint, undetected satellite galaxies—up to 100 more than we currently know. These elusive "orphan" galaxies have likely been stripped of their dark matter by the Milky Way’s gravity and hidden from view. If spotted by next-gen telescopes like the Rubin Observatory’s LSST, they could solidify our understanding of the Universe’s structure and deliver a stunning validation of the Lambda Cold Dark Matter model.
A Protocol for Simplifying LLM Application Development
Quantum computing will not deliver truly useful business results overnight, but the pace of progress is no longer linear; ...
Quantum computing is in its early stages, and two promising companies in the field are D-Wave and IonQ. IonQ is constructing ...