Magnetochemistry (Jan 2019)

A Clock Transition in the Cr7Mn Molecular Nanomagnet

  • Charles A. Collett,
  • Kai-Isaak Ellers,
  • Nicholas Russo,
  • Kevin R. Kittilstved,
  • Grigore A. Timco,
  • Richard E. P. Winpenny,
  • Jonathan R. Friedman

DOI
https://doi.org/10.3390/magnetochemistry5010004
Journal volume & issue
Vol. 5, no. 1
p. 4

Abstract

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A viable qubit must have a long coherence time T 2 . In molecular nanomagnets, T 2 is often limited at low temperatures by the presence of dipole and hyperfine interactions, which are often mitigated through sample dilution, chemical engineering and isotope substitution in synthesis. Atomic-clock transitions offer another route to reducing decoherence from environmental fields by reducing the effective susceptibility of the working transition to field fluctuations. The Cr7Mn molecular nanomagnet, a heterometallic ring, features a clock transition at zero field. Both continuous-wave and spin-echo electron-spin resonance experiments on Cr7Mn samples, diluted via co-crystallization, show evidence of the effects of the clock transition with a maximum T 2 ∼ 390 ns at 1.8 K. We discuss improvements to the experiment that may increase T 2 further.

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