It was a head-spinning discovery. In 2018, researchers in Japan claimed to find concrete evidence of an elusive particle, a ...

The cosmological constant is the mathematical description of the energy that drives the ever-accelerating expansion of the ...

Cornell University scientists have found out why a rare crystal, ruthenium chloride, behaved as if exotic particles lived ...

Researchers have uncovered a way to manipulate a quantum phenomenon within advanced materials by leveraging subtle internal features such as defects and vibrations.

The cosmological constant has been a problem in physics since Einstein, but new research may show why it takes the value that ...

Theoretical and experimental work described in Nature Physics expands the repertoire of exotic phases of matter.

So-called "exotic phases of matter" are currently a major focus of scientific research. There are two reasons for this. From the perspective of basic ...

A tiny silica bead, just 100 nanometers across, sits suspended in a vacuum and vibrates under the grip of laser light. Those ...

The global magnetic sensors market is poised for significant growth, projected to exceed $6 billion by 2036. Key technologies driving this expansion include Hall effect, anisotropic magnetoresistance, ...

A review article by Prof. Fengcheng Wu and Prof. Allan H. MacDonald highlights the emerging field of semiconductor moiré superlattices, where diverse strongly correlated and topological quantum phases ...

On a breezy afternoon last autumn in Cambridge, Mass., in a laboratory thrumming with the huff-whish-huff sound of ...

MIT physicists have synthesized a new family of bulk crystals whose electrons behave as though they move in an effectively four-dimensional “superspace,” rather than being fully described by the three ...