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Optical and spin coherence of Er spin qubits in epitaxial cerium dioxide on silicon

Jiefei Zhang, Gregory D. Grant, Ignas Masiulionis, Michael T. Solomon, Jonathan C. Marcks, Jasleen K. Bindra, Jens Niklas, Alan Dibos, Oleg G. Poluektov, F. Joseph Heremans, Supratik Guha, D. D. Awschalom

2024npj Quantum Information12 citationsDOIOpen Access PDF

Abstract

Robust spin-photon interfaces with optical transitions in the telecommunication band are essential for quantum networking technologies. Erbium (Er) ions are the ideal candidate with environmentally protected transitions in telecom-C band. Finding the right technologically compatible host material to enable long-lived spins remains a major hurdle. We introduce a new platform based on Er ions in cerium dioxide (CeO2) as a nearly-zero nuclear spin environment (0.04%) epitaxially grown on silicon, offering silicon compatibility for opto-electrical devices. Our studies focus on Er3+ ions and show a narrow homogeneous linewidth of 440 kHz with an optical coherence time of 0.72 μs at 3.6 K. The reduced nuclear spin noise enables a slow spin-lattice relaxation with a spin relaxation time up to 2.5 ms and an electron spin coherence time of 0.66 μs (in the isolated ion limit) at 3.6 K. These findings highlight the potential of Er3+:CeO2 platform for quantum networks applications.

Topics & Concepts

QubitCeriumCoherence (philosophical gambling strategy)Spin (aerodynamics)PhysicsSiliconQuantum computerOptoelectronicsQuantum mechanicsMaterials scienceCondensed matter physicsQuantumMetallurgyThermodynamicsQuantum optics and atomic interactionsQuantum and electron transport phenomenaAtomic and Subatomic Physics Research
Optical and spin coherence of Er spin qubits in epitaxial cerium dioxide on silicon | Litcius