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Room-Temperature Quantum Memory for Polarization States

Quantum Physics 2014-05-26 v1

Abstract

An optical quantum memory is a stationary device that is capable of storing and recreating photonic qubits with a higher fidelity than any classical device. Thus far, these two requirements have been fulfilled in systems based on cold atoms and cryogenically cooled crystals. Here, we report a room-temperature quantum memory capable of storing arbitrary polarization qubits with a signal-to-background ratio higher than 1 and an average fidelity clearly surpassing the classical limit for weak laser pulses containing 1.6 photons on average. Our results prove that a common vapor cell can reach the low background noise levels necessary for quantum memory operation, and propels atomic-vapor systems to a level of quantum functionality akin to other quantum information processing architectures.

Keywords

Cite

@article{arxiv.1405.6117,
  title  = {Room-Temperature Quantum Memory for Polarization States},
  author = {Connor Kupchak and Thomas Mittiga and Bertus Jordaan and Mehdi Namazi and Christian Nölleke and Eden Figueroa},
  journal= {arXiv preprint arXiv:1405.6117},
  year   = {2014}
}
R2 v1 2026-06-22T04:22:06.552Z