In the rapid development of quantum computing and sensor technology, accurately simulating the behavior of atomic-level materials is particularly important. However, traditional simulation methods ...

Copper selenide (Cu₂Se) attracts scientific interest for its thermoelectric ability to convert heat into electricity, but a ...

A scanning tunneling microscope and machine learning algorithm autonomously search for atomic structures. This image shows a ...

Catalysts play an indispensable role in modern manufacturing. More than 80% of all manufactured products, from ...

Why do some elements decay in minutes, while others last billions of years? Certain "magic numbers" of nuclear particles may ...

Traditional computers rely on binary bits for computation, while quantum computers utilize quantum bits that have superposition properties. The research team chose atoms as carriers for quantum bits ...

Researchers at UBC have found a way to mimic the elusive Schwinger effect using superfluid helium, where vortex pairs appear ...

IBM is racing Google, Amazon, Microsoft and a handful of startups to build the world’s first viable quantum computer.

Nikhil Malvankar, a Mumbai-born professor at Yale has blended biology and quantum mechanics to uncover a microbial mystery ...

The quantum world is already full of surprises, but a new discovery has added an entire wing to what scientists call the ...

A hidden world of quantum metrologists ensure that everyday devices perform safely and correctly, but their work is never ...

As a result of the tetrahedral symmetry of the lattice, a diamond crystal typically contains NV centers in four orientations.