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Hyperfine interactions and coherent spin dynamics of isotopically purified <sup>167</sup>Er<sup>3+</sup> in polycrystalline Y<sub>2</sub>O<sub>3</sub>

Tijana Rajh, Lei Sun, Shobhit Gupta, Jun Yang, Haitao Zhang, Tian Zhong

2022Materials for Quantum Technology12 citationsDOIOpen Access PDF

Abstract

Abstract 167 Er 3+ doped solids are a promising platform for quantum technology due to erbium’s telecom C-band optical transition and its long hyperfine coherence times. We experimentally study the spin Hamiltonian and dynamics of 167 Er 3+ spins in Y 2 O 3 using electron paramagnetic resonance (EPR) spectroscopy. The anisotropic electron Zeeman, hyperfine and nuclear quadrupole matrices are fitted using data obtained by X-band (9.5 GHz) EPR spectroscopy. We perform pulsed EPR spectroscopy to measure spin relaxation time T 1 and coherence time T 2 for the 3 principal axes of an anisotropic g tensor. Long electronic spin coherence time up to 24.4 μ s is measured for lowest g transition at 4 K, exceeding previously reported values at much lower temperatures. Measurements of decoherence mechanism indicates T 2 limited by spectral diffusion and instantaneous diffusion. Long spin coherence times, along with a strong anisotropic hyperfine interaction makes 167 Er 3+ :Y 2 O 3 a rich system and an excellent candidate for spin-based quantum technologies.

Topics & Concepts

Hyperfine structureZeeman effectElectron paramagnetic resonanceSpectroscopyPhysicsSpinsPulsed EPRQuantum decoherenceCoherence (philosophical gambling strategy)Atomic physicsAnisotropyCondensed matter physicsChemistryNuclear magnetic resonanceSpin echoQuantumMagnetic fieldOpticsQuantum mechanicsMagnetic resonance imagingRadiologyMedicineElectron Spin Resonance StudiesQuantum optics and atomic interactionsAtomic and Subatomic Physics Research