Quantum researchers have deployed a new algorithm to manage noise in qubits in real time. The method can be applied to a wide ...

Quantum computers differ fundamentally from classical ones. Instead of using bits (0s and 1s), they employ "qubits," which can exist in multiple states simultaneously due to quantum phenomena like ...

The researchers are seeking to address these concerns and make QKD viable by introducing a new metric called "maximum number ...

It’s been difficult to find important questions that quantum computers can answer faster than classical machines, but a new algorithm appears to do so for some critical optimization tasks.

At first glance, quantum computers seem like machines that only will exist in the far-off future. And in a way, they are. Currently, the processing power that these devices have are limited by the ...

When a quantum computer processes data, it must translate it into understandable quantum data. Algorithms that carry out this ‘quantum compilation’ typically optimize one target at a ...

When quantum computers become powerful enough, they could theoretically crack the encryption algorithms that keep us safe. The race is on to find new ones.

Researchers have found a way to make the chip design and manufacturing process much easier — by tapping into a hybrid blend of artificial intelligence and quantum computing.

Physicists report the development of a quantum algorithm with the potential to study a class of many-electron quantums system using quantum computers ...

Evidence that quantum searches are an ordinary feature of electron behavior may explain the genetic code, one of the greatest puzzles in biology.