When mobile charge carriers, also known as itinerant electrons, interact with the strong exchange magnetic fields associated ...

By cooling an atom-thin magnetic material, physicists have experimentally confirmed a classic 1970s model of two-dimensional ...

As the demand for smarter, smaller, and more energy-efficient electronics surges, the limits of conventional 3D semiconductors are becoming impossible to ignore. Now, researchers from Netaji Subhas ...

Conventional crystals are materials in which atoms arrange themselves in repeating spatial patterns. Time crystals, on the other hand, are phases of matter characterized by repeating motions over time ...

The new, international theoretical study introduces a novel approach known as the ‘quantum virial expansion,’ offering a powerful tool to uncover the complex quantum interactions in two-dimensional ...

A University of Hawaiʻi at Mānoa student-led team has developed a new algorithm to help scientists determine direction in complex two-dimensional (2D) data, with potential applications ranging from ...

Indian theoretical Satyendra Nath Bose is well-known for his work in the 1920s, when the field of quantum mechanics was in its infancy. It’s why the lesser-known fifth form of matter—Bose-Einstein ...

Graphene might be the wonder kid of the materials world but other 2D nanosheets also show great promise for novel applications, says Belle Dumé New dimensions Heterostructures based on 2D atomic ...