Black holes sometimes behave like conventional quantum systems

A new protocol created by researchers at the UAB sorts and classifies quantum data by the state in which they were prepared, with more efficiency than the equivalent classical algorithm. The algorithm represents a first step in the automated learning of quantum information networks. The research was published today in Physical Review X. Quantum-based communication and computation technologies promise unprecedented applications, such as unconditionally secure communications, ultra-precise sensors, and quantum computers capable of solving specific problems with a level of efficiency impossible to reach by classical computers. In recent times, quantum computers are also envisioned as nodes in a network of quantum devices, where connections are established via quantum channels and data are quantum systems that flow through the network, thus setting the bases for a future “quantum internet”. With the design of these quantum information networks come new theoretical challenges, given that it is necess

Black holes sometimes behave like conventional quantum systems

A group of Skoltech researchers led by Professor Anatoly Dymarsky have studied the emergence of generalized thermal ensembles in quantum systems with additional symmetries. As a result they ...

Tue 5 Nov 19 from Phys.org

Black holes sometimes behave like conventional quantum systems, Tue 5 Nov 19 from Eurekalert

For faster quantum computing, Microsoft builds a better qubit - CNET

Microsoft's new approach to quantum computing is "very close," an executive says.

Thu 7 Nov 19 from CNET Cutting Edge

Manufacturing silicon qubits at scale

Tue 12 Nov 19 from Physicsworld Blog

A new quantum data classification protocol brings us nearer to a future “quantum internet”

A new protocol created by researchers at the UAB sorts and classifies quantum data by the state in which they were prepared, with more efficiency than the equivalent classical algorithm. The ...

Fri 8 Nov 19 from AlphaGalileo

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