This incredible quantum innovation is a two-in-one system combining the abilities of a mechanical oscillator and a superconducting qubit. Compared to the traditional virtual qubits that are ...

Now researchers may have found a way to use both electromagnetic qubits and mechanical resonators to create a hybrid form that acts like a mechanical qubit, with quite long (200 µs) coherence time.

MIT researchers have pushed the boundaries of quantum computing by developing fluxonium qubits that demonstrate world-record ...

cooled a mechanical oscillator to a temperature of 25 mK with a dilution refrigerator, and then used a superconducting quantum bit (qubit) to measure the quantum state of the device. The UCSB team ...

This allowed the superconducting qubit's oscillating current to excite vibrations in the mechanical resonator ... of the system from being a harmonic oscillator enabled the researchers to isolate ...

Qolab added it’s also working on improving the design of other non-qubit parts of the computers ... its development cycle and scaling its superconducting quantum processor product.

This includes a new cryogenic hardware design to reduce the amount of metal at the refrigerator’s coldest stage, increasing efficiency and reducing the cost per qubit, and an improved ... our ...