Today, an international team of researchers made a major breakthrough in quantum computing: the successful demonstration of non-Markovian evolution for a two-qubit entanglement. This breakthrough could open up a whole new world of possibilities for quantum computing.

Non-Markovian evolution refers to the way in which a system evolves over time, taking into account the effects of past events. Until now, scientists have been working on Markovian evolution, in which a system is assumed to evolve independently of its past.

The new research team was able to demonstrate non-Markovian evolution of a two-qubit entanglement. This means that the team was able to show that information about past events can affect the future evolution of a quantum system.

This breakthrough could pave the way for further exploration in the field of quantum computing, as it could lead to new ways of manipulating and controlling qubits. It could also be used to develop new protocols for fault-tolerant quantum computation.

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source: Phys.org