Researchers at Quantum Motion in London recently demonstrated the integration of 1,024 independent silicon quantum dots with on-chip digital and analog electronics, to produce a quantum computing ...

Silicon quantum dots, also called artificial atoms, are the basic structure of silicon spin qubits. These tiny structures can trap and control individual electrons, allowing researchers to define ...

Silicon spin qubits store quantum information using the spin of an electron—a quantum version of a tiny magnet. These spins are confined in tiny structures called quantum dots, sometimes ...

Engineers at the University of Rochester have created uniform silicon quantum dots — molecule-sized crystals of silicon that could someday offer computer manufacturers an economically viable way ...

Silicon quantum dots, also called artificial atoms, are the basic structure of silicon spin qubits. These tiny structures can trap and control individual electrons, allowing researchers to define ...

Quantum dot solar cells still have a long way to go to catch up to the everyday silicon solar cells, the latter has had a half-century head-start and is rapidly approaching its theoretical maximum ...

Applied Quantum Materials (AQM), a Canadian company headquartered in Edmonton, Alberta, is making significant strides in the field of quantum materials, with a focus on silicon quantum dots.

However, we show that by converting a chemical linker that covalently binds anthracene molecules to silicon quantum dots from a carbon–carbon single bond to a double bond, we access a strong coupling ...

Imec has used 300mm wafers to demonstrate silicon-based quantum dot spin qubit processing. The devices had an average charge noise of 0.6µeV/√Hz at 1Hz. “In view of noise performance, the values ...

Get Instant Summarized Text (Gist) A system integrating 1,024 silicon quantum dots with on-chip electronics operating below 1 K has been developed, linking cryogenic and room-temperature properties.

Silicon quantum dots, also called artificial atoms, are the basic structure of silicon spin qubits. These tiny structures can trap and control individual electrons, allowing researchers to define ...

The 300mm CMOS production line was modified for silicon MOS (metal-oxide-semiconductor) qubit integration, with the gate-stack changed to allow quantum dots to be created at the silicon-SiO 2 ...