Physicists Discover a New Way To Connect Qubits Using Crystal Imperfections

A new study suggests that crystal defects in diamond may hold the key to scalable quantum interconnects. Connecting large ...

Turning crystal flaws into quantum highways: A new route towards scalable solid-state qubits

Building large-scale quantum technologies requires reliable ways to connect individual quantum bits (qubits) without ...
Nanowerk

Defects in 2D materials enable terahertz spin qubits

Atomic-scale defects in 2D materials show terahertz spin splitting, pointing to robust spin qubits and single-photon emitters at higher temperatures.
Nanowerk

New techniques enhance brightness and control of quantum defects in nanodiamonds

(Nanowerk Spotlight) The quest to harness the power of quantum mechanics for practical applications has been a driving force in physics and materials science. At the heart of this endeavor lies the ...
AZoQuantum

Spin Squeezing, Structured Light, And Getting More From Quantum Metrology

Theoretical advancements in quantum metrology by Dr. Mackoit-Sinkeviciene are shaping the future of quantum technologies and ...
Phys.org

Strain engineering enhances spin readout in quantum technologies, study shows

Quantum defects are tiny imperfections in solid crystal lattices that can trap individual electrons and their "spin" (i.e., the internal angular momentum of particles). These defects are central to ...
Science Daily

Bright prospects for engineering quantum light

Computers benefit greatly from being connected to the internet, so we might ask: What good is a quantum computer without a quantum internet? Computers benefit greatly from being connected to the ...
Phys.org

Scientists discover single atom defect in 2D material can hold quantum information at room temperature

Scientists have discovered that a "single atomic defect" in a layered 2D material can hold onto quantum information for microseconds at room temperature, underscoring the potential of 2D materials in ...