• Subjects Quantum information Quantum optics Abstract Doping erbium ions into europium-based hosts offers a promising platform for quantum repeater nodes, combining europium’s exceptional coherence properties for long-term quantum storage with erbium’s microwave compatibility and direct telecom-band emission for efficient optical interfacing • In this work, we investigated erbium-doped EuCl3⋅6H2O stoichiometric crystals as a candidate for such nodes • We demonstrate that erbium doping shifts the optical transition frequencies of nearby Eu3+ions, producing well resolved satellite lines in the inhomogeneous absorption profile • We experimentally probe the coupling between Er3+and Eu3+ions under varying temperature and magnetic field conditions, quantifying the interaction strength, which ranges from tens to hundreds of kilohertz, depending on field orientation, magnitude, and the lattice position of the Eu3+ions • At 60 mK and a moderate magnetic field of 0 • 1 T, we observed a strong frozen core effect from Er3+spins, substantially extending the Eu3+optical coherence time from 62 μs to 162 μs, approaching the lifetime limit, and enabling hour-long hyperfine state lifetimes

Article Summaries:

  • Abstract Doping erbium ions into europium-based hosts offers a promising platform for quantum repeater nodes, combining europium’s exceptional coherence properties for long-term quantum storage with erbium’s microwave compatibility and direct telecom-band emission for efficient optical interfacing. In this work, we investigated erbium-doped EuCl3 ⋅ 6H2O stoichiometric crystals as a candidate for such nodes. We demonstrate that erbium doping shifts the optical transition frequencies of nearby Eu3+ ions, producing well resolved satellite lines in the inhomogeneous absorption profile. We experime

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