Researchers have found a way to use ultrafast laser pulses to precisely activate quantum light sources inside diamond, a step that could sharply accelerate the development of diamond-based quantum ...

Atomic-scale defects in 2D materials show terahertz spin splitting, pointing to robust spin qubits and single-photon emitters at higher temperatures. (Nanowerk News) Scientists from the National ...

For the first time, researchers have demonstrated that the properties of the perovskite family of materials can be used to create so-called quantum bits. The findings, published in the journal Nature ...

Used as a versatile material in industry and health care, magnesium oxide may also be a good candidate for quantum technologies. Research led by the U.S. Department of Energy's (DOE) Argonne National ...

The findings 'Spin Qubits Candidate in Transition-Metal-Ion Doped Halide Double Perovskites', published in the journal Nature ...

Researchers defy expectations by creating quantum bits from perovskite materials, once thought too unstable, opening a new field toward functional quantum computers.

Diamonds with certain optically active defects can be used as highly sensitive sensors or qubits for quantum computers, where the quantum information is stored in the electron spin state of these ...

Quantum computers and quantum communication are pioneering technologies for data processing and transmission that is much faster and more secure than with conventional computers. Qubits are the basic ...

The path toward realizing practical quantum technologies begins with understanding the fundamental physics that govern quantum behavior — and how those phenomena can be harnessed in real materials. In ...

Artist’s representation of the formation pathway of vacancy complexes for spin-based qubits in in the silicon carbide host lattice and to the right the associated energy landscape. Quantum computers ...

Quantum computers promise a revolution in computing power. By exploiting the properties of quantum states to process data, they can potentially perform complex calculations far beyond the reaches of ...