Primordial magnetic fields, billions of times weaker than a fridge magnet, may have left lasting imprints on the Universe.

Research using 250,000 simulations and observations shows early Universe magnetic fields were incredibly weak, yet still ...

The magnetic fields that formed in the very early stages of the universe may have been billions of times weaker than a small fridge magnet, with strengths comparable to magnetism generated by neurons ...

Inspired by the oriented and Bouligand structures in natural organisms with remarkable strength and toughness, a magnetic field-assisted 3D printing device was developed for the preparation of ...

Using exhaustive computer simulations, the team constrained an upper limit on these fields' magnetic strength and found that they likely maxed out at 0.00000000002 gauss, which is billions of times ...

Mixing of particles under a 40 G, 10 Hz rotating magnetic field, with monomers remaining in a gas-like phase. Credit: Proceedings of the National Academy of Sciences (2025). DOI: ...

Just like Goldilocks found some porridge too hot and some too cold, 3D printers often have beds that don’t stick well enough or stick too well. A few weeks ago I switched two of my three printers to ...

A new study reveals that magnetic fields in the early universe were likely billions of times weaker than those of a small fridge magnet. According to an international team of researchers, the strength ...

Researchers at Rice University created a soft but sturdy material that can transform in the blink of an eye when exposed to a basic handheld magnet—and then stabilize with no batteries or electricity.

The regular season is officially in play, but with only four field hockey teams getting an early start on Labor Day. Thus, the Globe’s Top 20 poll remains unchanged from the preseason rankings.