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 ...

As AI tech guzzles more and more energy, Dr Yating Wan and her team aim to provide light relief with their quantum solution.

as silicon does; and they can be applied to a variety of inexpensive and even flexible substrate materials, such as lightweight plastics. Although using quantum dots as the basis for solar cells is ...

A new study has addressed this bottleneck by proving the existence of a nuclear-spin dark state. This state has been ...

What's interesting about the achievements of these two groups is that they demonstrate that integration of colloidal quantum dot optoelectronics with silicon backplane electronics is practical ...

A research team from the University of Science and Technology of China has demonstrated the ability to electrically manipulate the spin filling sequence in a bilayer graphene (BLG) quantum dot (QD).

Researchers have uncovered a way to manipulate DNA at the atomic level using electric field gradients to control nitrogen ...

Since the 1960s, technological advances have enabled silicon transistors to keep shrinking, causing computational capability to grow exponentially. However, transistors cannot shrink much further; ...

Scientists at Quantum Motion in London have successfully integrated 1,024 silicon quantum dots with cryogenic on-chip electronics, marking a significant step toward scalable quantum computing.

Thomas, Virginia N. Ciriano-Tejel and their colleagues wrote in their paper. "Spin qubits in silicon quantum dots can potentially address these challenges given their control fidelities and ...