Enhancing spin-spin coherence times in a Cr<sub>7</sub>Mn molecular nanomagnet at a clock transition

Gajadhar Joshi; Kai-Isaak Ellers; Charles Collett; Daniel Sava; Richard Winpenny; Grigore Timco; Jonathan Friedman

Enhancing spin-spin coherence times in a Cr₇Mn molecular nanomagnet at a clock transition

ORAL

Abstract

The development of quantum computing based on the spin quibits is contingent on the synthesis of spin quibits with long spin coherence time. Molecular nanomagnets (MNMs) are unique systems that allow chemical engineering of physical parameters in order to enhance their spin relaxation times. Atomic-clock transitions afford a method to significantly increase the spin-spin relaxation times (T₂) for MNMs [1]. In dilute samples of Cr₇Mn MNM with effective spin S=1, we have measured T₂ values as high as 3 µs near a clock transition. We find that the effects of the clock transition are more pronounced with increased dilution and reduced temperature. We present the results of detailed studies of these effects and suggest ways to increase the coherence times further.
Reference:
[1] M. Shiddiq et al., Nature 531, 348 (2016).

March 5, 2019, 11:51 AM – March 5, 2019, 12:03 PM

Presenters

Gajadhar Joshi

Physics and Astronomy, Amherst College

Authors

Gajadhar Joshi

Physics and Astronomy, Amherst College
Kai-Isaak Ellers

Physics and Astronomy, Amherst College
Charles Collett

Department of Physics and Astronomy, Amherst College, Amherst, MA, USA, Department of Physics and Astronomy, Amherst College, Amherst, MA 01002, USA, Physics and Astronomy, Amherst College
Daniel Sava

School of Chemistry, The University of Manchester, Manchester UK, Department of Chemistry, The University of Manchester, Chemistry, University of Manchester
Richard Winpenny

University of Manchester, School of Chemistry, The University of Manchester, School of Chemistry, The University of Manchester, Manchester UK, Department of Chemistry, The University of Manchester, Chemistry, University of Manchester
Grigore Timco

School of Chemistry, The University of Manchester, School of Chemistry, The University of Manchester, Manchester UK, Department of Chemistry, The University of Manchester, Chemistry, University of Manchester
Jonathan Friedman

Department of Physics and Astronomy, Amherst College, Department of Physics and Astronomy, Amherst College, Amherst, MA, USA, Department of Physics and Astronomy, Amherst College, Amherst, MA 01002, USA, Physics and Astronomy, Amherst College