Knotted structures once imagined by Lord Kelvin may actually have shaped the universe’s earliest moments, according to new ...

The Hubble tension is especially troubling because it involves two sets of measurements that offer conflicting views of the ...

Scientists are testing a novel way to measure cosmic expansion using time delays in gravitationally lensed quasars. Their ...

New gravitational lensing measurements by the TDCOSMO Collaboration support the Hubble Tension, confirming differences between Early and Late Universe Hubble Constant values using updated ...

ScientiFix, our weekly feature, offers you a summary of the top global science stories of the week, with links to their ...

Neutrinos are one of the most mysterious particles in the universe, and get their name because they hardly interact with ...

The 12-metre-diameter acrylic vessel surrounded by 9,000 photomultiplier tubes at the heart of the the Sudbury Neutrino ...

The universe’s expansion rate was supposed to be a solved problem, yet the latest high precision map of the early cosmos has ...

New ideas can shift everything you thought you understood, and these science books offer that rare spark that leaves your ...

The Boston area lost several luminaries in 2025, but their contributions won’t soon be forgotten. From Kitty Dukakis’s ...

First observation of carbon-neutrino interactions opens new frontiers in nuclear and particle physics.More images available via the link in the Notes ...

In 1867, Lord Kelvin pictured atoms as tiny knots in an invisible medium called the ether. That picture turned out to be wrong, since atoms are built ...