The world of quantum computing is moving fast. It’s a really exciting area where new ideas are popping up all the time. This ...

The combination of quantum and telecommunication networks enables to revolutionize the way information is used, offering unparalleled capabilities and making it an ideal choice for many critical ...

Understanding randomness is crucial in many fields. From computer science and engineering to cryptography and weather forecasting, studying and interpreting randomness helps us simulate real-world ...

The first being that single qubit quantum clones retain the same Bloch angle as the initial quantum state. This means that if the mixed state of the quantum clone can be computed to high enough ...

Topological photonics offers a powerful platform for next-generation nanophotonic chips, capitalizing on their remarkable resilience to disorder and defects. In this paper, we'll present a series of ...

Nearly 50 years ago, physicists floated a bold idea: our universe might be stuck in a false vacuum. This state feels stable, but deep down, it's not.

Fault-Tolerant Topological Qubits Microsoft’s approach with topological qubits is a game-changer because it tackles this fragility head-on. Instead of relying on delicate quantum states, topological ...

The quantum battery (QB) has been proposed as an alternative to the electrochemical energy storage devices we know so well.

Using CCE simulations, we reveal a general scaling relation between the electron spin coherence time and the properties of qubit host materials that enables rapid and quantitative exploration of new ...

However, creating a single logical qubit traditionally requires dozens or even hundreds of physical qubits, significantly increasing the size, complexity and energy cost of a quantum computer.