A quantum computing leap with a magnetic twist
The team’s discoveries mark a first and promising step in constructing a type of fault-tolerant qubit.
A new quantum theory explains the “light-induced phase” of matter
The new theory has the potential to revolutionize the field of quantum photonics.
Storing quantum information as sound waves
A new method for efficiently translating electrical quantum states into sound.
Adjusting the qubits in real time to minimize error
Noise-cancelling qubits can minimize errors in quantum computers.
A new method to constantly monitor the noise around a quantum system
'Noise-cancelling’ qubits.
Distant quantum objects can be much more strongly correlated with each other
The first-ever loophole-free Bell test with superconducting circuits.
New work reconstructs the full state of a quantum liquid
New research using ultracold atoms reveals particular properties of quantum systems.
A formula that predicts the effects of environmental noise on quantum information
An advancement crucial for designing and building quantum computers capable of working in an imperfect world.
World-first experimental wormhole to help unravel the deepest mysteries of the universe
One of the first practical applications of the much-hyped but little-used quantum computing technology.
First demonstration of universal control of encoded spin qubits
First demonstration of universal control of encoded spin qubits.
There is no second law of entanglement after all, suggests a study
Entanglement is even richer than we have given it credit for.
A new way to control atomic nuclei as “qubits”
Using lasers, researchers can directly control a property of nuclei called spin.