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
Large Hadron Collider detects strange particle behavior that could rewrite physics
Scientists working at CERN’s Large Hadron Collider may be seeing the strongest hints yet of physics beyond the Standard Model — the decades-old theory that explains the fundamental particles and forces of the universe. By studying incredibly rare particle transformations called “penguin decays,” researchers found behavior that doesn’t fully match theoretical predictions, raising the possibility that unknown particles or forces are influencing the results.
AI-powered spectrometer chip shrinks lab technology to the size of a grain of sand
A new AI-powered chip from UC Davis can analyze light and chemicals using a device tiny enough to fit almost anywhere. By combining smart silicon sensors with machine learning, it achieves lab-style spectral analysis without the bulky equipment.
Scientists create global treasure map pointing to hidden rare earth deposits
Scientists have created a global “treasure map” for rare earth elements by uncovering where the strange volcanic rocks that contain them are most likely to form. By combining thousands of rock samples with seismic images of Earth’s deep interior, the team discovered that these metal-rich rocks tend to appear along the ancient, thick roots of continents. These unusual rocks, once seen as geological oddities, are now incredibly important because they hold many of the materials used in smartphones,
NASA’s Psyche spacecraft uses Mars as a giant slingshot toward a mysterious metal world
NASA’s Psyche spacecraft just used Mars as a giant gravitational slingshot to continue its journey toward a strange metal rich asteroid. The close flyby boosted the spacecraft’s speed by about 1,000 mph while also producing rare crescent images of Mars glowing through its dusty atmosphere.
25 science facts that will break your brain: mind-bending di
Prepare to have your worldview shattered! Discover 25 science facts that will break your brain, revealing the universe's most ...
Quantum sensors use atoms, electrons and light as ultra‑steady rulers – detecting faint motion, magnetism and gravity for navigation, medicine and science
Quantum computers get a lot of attention, even though they are not ready for prime time, but quantum sensors are already doing useful work.
Scientists discover a giant “planet factory” beyond Jupiter
Scientists believe a dust-filled ring just outside Jupiter acted like a cosmic “planetesimal factory,” producing multiple generations of early space rocks with very different compositions. The discovery may finally explain the origins of several mysterious meteorite types that have survived since the birth of the Solar System.
IBM-backed education centre in Iași to invest EUR 100 mln in quantum computer
The first private quantum computer in Central and Eastern Europe will be installed in Iași as part of the FreeYaMind Campus project developed in partnership with IBM, Mediafax reported. The investment ...
Questions About Quantum
As mind-bendingly counterintuitive as the subject is, though, it is showing up in all kinds of technological spaces these ...
This Quantum Computing Company's Backlog Just Increased Nearly 2,000%
D-Wave Quantum's products are becoming more popular.
Trump Admin Takes Equity Stake in IBM and Other Quantum Computing Companies
Quantum computers are an emerging technology that works on the subatomic level with the potential to significantly disrupt ...
Randomization can improve quantum computer performance in presence of noise
New research led by a graduating Ph.D. student in The University of New Mexico Department of Electrical and Computer ...
Scientists trained an AI model using a quantum computer, and it answered questions more accurately
When running an AI model through a quantum computer, scientists have increased accuracy by only adding a relatively small ...
5 Best Quantum Computing ETFs for 2026
On May 21, the U.S. Commerce Department announced it would give a total of $2 billion in grants to nine companies at the bleeding edge of quantum computing technology, including I ...
Scientists solve difficult quantum problem using ordinary computers
Quantum computing’s edge looked closer after a hard physics problem seemed beyond classical machines. But a new result shows compressed math and smarter algorithms can match or beat that benchmark, ra...
Quantum computing progress: Higher temps, better error correction
There’s a strong consensus that tackling most useful problems with a quantum computer will require that the computer be capable of error correction. There is ...
Massive supercomputer simulations unlock cosmic magnetic mystery
Scientists used some of the most advanced plasma simulations ever created to uncover how the universe builds enormous magnetic fields out of turbulence. The discovery could reshape our understanding of stars, black holes, neutron star collisions, and dangerous solar eruptions.
A Revolutionary Cancer Treatment Could Transform Autoimmune Disease
Researchers are testing CAR T cell therapy as a way to reset the immune system in lupus, Graves’ disease, and other conditions where the body’s defenses go rogue. This story was originally published by Knowable Magazine.At age 49, Jan Janisch-Hanzlik’s multiple sclerosis was destroying her freedom to live the life she wanted. She gave up her active nursing job for a desk role. Frequent falls made her afraid to carry her grandchildren. She had to move to a bigger house to make room for the wheelc
Hydrogen puts quantum wormhole conjecture to the test
A new Physical Review Letters study places constraints on the ER = EPR conjecture, showing that under the authors' assumptions, the conjecture would imply possible alterations to the hyperfine structure and effective charge of the hydrogen atom—effects that have never been observed.