In their ongoing efforts to push the boundaries of quantum possibilities, physicists in Arts & Sciences at Washington ...

Physicists have successfully created a lab-grown diamond with a hardness exceeding that of natural diamonds. By subjecting graphite to extreme pressure and heat, researchers synthesized a rare ...

The resulting diamond has a hexagonal lattice crystal structure, rather than the normal cubic structure. Hexagonal diamond (or lonsdaleite) was first brought to the attention of scientists more than ...

A super diamond refers to an ultra-hard diamond with a hexagonal crystal structure, scientifically known as lonsdaleite. It is significantly 40% harder than natural diamonds, which typically have ...

Japanese scientists have created diamond quantum sensors that can monitor EV batteries with great precision to help improve ...

Physicists at Washington University have forged ahead in the field of quantum mechanics by creating a new phase of matter ...

To understand a time crystal, it helps to think about ... their shape and shine to their highly organized structures. The carbon atoms in a diamond interact with each other to form repeated ...

Diamond-based electronics also operate well at higher voltages for power conditioning, where the power coming into the device ...

Quantum physicists have created a new phase of matter inside a diamond. Their new "time quasicrystal" is special as it is ...

Now, the team believes that because time crystals and quasicrystals are sensitive to quantum forces like magnetism, they could serve as long-lasting quantum sensors that never need recharging. This, ...