Qubits
How do surrounding atoms tune the energy of a single electron?
Quantum dance to the beat of a drum.
Scientists created the first programmable, logical quantum processor
Key step toward reliable, game-changing quantum computing.
A significant milestone toward quantum computing
Breakthrough realized for retaining quantum information in a single-electron quantum bit.
A new qubit circuit enables the accuracy of quantum computing
The advance brings quantum error correction a step closer to reality.
Scientists used machine learning to perform quantum error correction
Minimizing the device overhead while maintaining good error correcting performance.
A new protocol to extend the life of quantum coherence by 20x
Canceling noise to improve quantum devices.
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.
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.
First demonstration of universal control of encoded spin qubits
First demonstration of universal control of encoded spin qubits.
A new way to control atomic nuclei as “qubits”
Using lasers, researchers can directly control a property of nuclei called spin.