An elusive particle that first formed in the hot, dense maelstrom of the early universe has puzzled physicists for decades.

which means that the spins of the atoms in the material cannot all align in a way that minimizes their energy due to the ...

Calculations of charge distribution in mesons provide benchmark for experimental measurements and validate widely used 'factorization' method for imaging the building blocks of matter.

The SPINNING project, under the leadership of the Fraunhofer Institute, is pioneering a quantum computer using diamond-based ...

The atoms of amorphous solids like glass have no ordered structure; they arrange themselves randomly, like scattered grains ...

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To expand the potential use of diamond in semiconductor and quantum technologies, researchers are developing improved processes for growing the material at lower temperatures that won't damage the ...

The round was led by Framework Ventures and Union Square Ventures, with participation from Lattice Ventures ... grid that is expected to replace the energy consumption of 34,000 homes in India.

Moiré materials, such as twisted bilayer graphene, are materials generally formed by stacking two or more layers of 2D materials on top of each other with a small lattice mismatch. This slight ...

Credit: energy.gov Thin-film cells use less material ... perovskites' own crystal lattice alternates between anions and cations. This means they can serve as a solid-state solar cell.

A study published in Nano Letters by researchers from the Florida State University Department of Physics and ...