Vibronic coupling in candidate spin qubit material: Na9[Ho(W5O18)2]x35H2O

Avery Blockmon; Aman Ullah; Kendall D Hughey; Yan Duan; Ken ONeal; Mykhaylo Ozerov; Juan Arago; Alejandro Gaita-Arino; Janice Musfeldt

Vibronic coupling in candidate spin qubit material: Na9[Ho(W5O18)2]x35H2O

ORAL

Abstract

In order to unravel decoherence pathways in a candidate spin qubit system, we measured the vibrational properties of single molecule magnet Na₉[Ho(W₅O₁₈)₂]x35H₂O. We compared our findings with complementary lattice dynamics calculations and models for spin-phonon and vibronic coupling. Magneto-infrared spectroscopy revealed field-induced changes near 63 and 370 cm⁻¹that we model in terms of f-manifold crystal field excitations activated by odd-symmetry vibrations. These findings advance the understanding of vibronic coupling in molecular magnets, place severe constraints on the spin energy levels in this system, and provide a strategy for designing molecular qubit materials with improved lifetimes.

March 17, 2021, 1:06 PM – March 17, 2021, 1:18 PM

Presenters

Avery Blockmon

Department of Chemistry, University of Tennessee

Authors

Avery Blockmon

Department of Chemistry, University of Tennessee
Aman Ullah

Instituto de Ciencia Molecular, Universitat de Valencia
Kendall D Hughey

Department of Chemistry, University of Tennessee, University of Tennessee
Yan Duan

Instituto de Ciencia Molecular, Universitat de Valencia
Ken ONeal

Los Alamos National Laboratory, Department of Chemistry, University of Tennessee, CINT, Los Alamos National Lab
Mykhaylo Ozerov

National High Magnetic Field Laboratory, National High Magnetic Field Lab
Juan Arago

Instituto de Ciencia Molecular, Universitat de Valencia
Alejandro Gaita-Arino

Instituto de Ciencia Molecular, Universitat de Valencia
Janice Musfeldt

University of Tennessee, Department of Physics and Astronomy, Rutgers University, Department of Chemistry, University of Tennessee