Quantum memory

In quantum computing, quantum memory is the quantum-mechanical version of ordinary computer memory. Whereas ordinary memory stores information as binary states (represented by "1"s and "0"s), quantum memory stores a quantum state for later retrieval. These states hold useful computational information known as qubits. Unlike the classical memory of everyday computers, the states stored in quantum memory can be in a quantum superposition, giving much more practical flexibility in quantum algorithms than classical information storage.

Quantum memory is essential for the development of many devices in quantum information processing, including a synchronization tool that can match the various processes in a quantum computer, a quantum gate that maintains the identity of any state, and a mechanism for converting predetermined photons into on-demand photons. Quantum memory can be used in many aspects, such as quantum computing and quantum communication. Continuous research and experiments have enabled quantum memory to realize the storage of qubits.[1]

  1. ^ Lvovsky AI, Sanders BC, Tittel W (December 2009). "Optical quantum memory". Nature Photonics. 3 (12): 706–714. Bibcode:2009NaPho...3..706L. doi:10.1038/nphoton.2009.231. ISSN 1749-4893. S2CID 4661175.

Quantum memory

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