Physicists propose that tangled cosmic “knots” formed after the Big Bang may explain why our universe is made of matter, not ...
The Brighterside of News on MSN
Penn State scientists found a new way to identify superconducting materials
Electricity is the lifeblood of modern life, but even the most efficient power lines lose energy along the way. For decades, ...
The Register on MSN
Get ready to squint! World's smallest pixel is just 300 nm
Micro-OLED displays with 1080p (1920x1080) resolution have been around for a few years now, but a group of German researchers ...
Ing. Jörg Volpp explores how surface tension in pure metals behaves at high temperatures, particularly in the boiling range ...
2h
US is building massive supercomputers to tackle problems — from nuclear energy to cancer treatments
The United States has partnered with AMD in a $1 billion initiative to build two supercomputers aimed at advancing research ...
Prosus's first venture into early-stage investments will contribute $200,000 to $2 million per startup through Accel's Atoms ...
In 1977, astronomer Jerry Ehman discovered the mysterious “Wow! Signal” — a powerful radio burst from deep space at the hydrogen line frequency. Nearly five decades later, scientists believe the newly ...
Why is interstellar object 3I/ATLAS venting pure nickel without iron? This cosmic anomaly defies chemistry, fuelling a fierce ...
Boron nitride sensors enable quantum measurements under crushing pressure, redefining high-pressure physics. The quantum ...
Interesting Engineering on MSN
World’s first nuclear clock to answer physics’ fine-structure constant mystery
A team of researchers in Austria has recently demonstrated that the world’s first nuclear clock could help answer whether the fine-structure constant changes over time.
A flexible layered sulfide captures hydrated rare earth ions from radioactive water, enabling fast and selective cleanup ...
Some results have been hidden because they may be inaccessible to you
Show inaccessible results
Feedback