Researchers reveal that plasmons in boron-doped diamonds are driving advances in electronics, optics and quantum computing.

The boron-doped diamond lattice remains transparent, with a blue hue. (The famous Hope Diamond is blue because it contains small amounts of boron). Because of its other unique properties—it's ...

here’s a simple explanation —When a tin atom replaces a carbon atom in a diamond lattice, it leads to the creation of tin ...

The boron-doped diamond lattice remains transparent, with a blue hue. (The famous Hope Diamond is blue because it contains small amounts of boron). Because of its other unique properties—it’s also ...

This center considerably influences diamond coloration and constitutes a lattice defect referred to as a color center. NV ...

HILLSBORO, OR, Jul 16, 2012 --Lattice Semiconductor Corporation (NASDAQ: LSCC) today announced version 2.0 of its Lattice Diamond(R) design software, the flagship design environment for Lattice FPGA ...

What are Nitrogen-Vacancy (NV) Centers? Nitrogen-vacancy (NV) centers are atomic-scale defects in the lattice structure of diamond. They consist of a substitutional nitrogen atom adjacent to a vacant ...

Silicon has the diamond cubic crystal structure with a lattice parameter of 0.543 nm. The nearest neighbor distance is 0.235 nm. The diamond cubic crystal structure has an fcc lattice with a basis of ...

The boron-doped diamond lattice remains transparent, with a blue hue. (The famous Hope Diamond is blue because it contains small amounts of boron). Because of its other unique properties – it’s also ...