Probing Electronic transport in thin crystals of ruthenium chloride through Ionic Liquid gating.

Bulletin of the American Physical Society

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2018 Annual Meeting of the Far West Section

Volume 63, Number 17

Thursday–Saturday, October 18–20, 2018; Cal State Fullerton, Fullerton, California

Session E01: Poster Session 1

10:30 AM, Saturday, October 20, 2018
Titan Student Union Room: Pavillion A

Chair: Hendrik Ohldag, Lawrence Berkeley National Laboratory

Abstract ID: BAPS.2018.FWS.E01.3

Abstract: E01.00003 : Probing Electronic transport in thin crystals of ruthenium chloride through Ionic Liquid gating.*

Abstract

Presenter:

Amirari Diego
(California State University, Long Beach)

Authors:

Amirari Diego
(California State University, Long Beach)

Naomy Marufo
(California State University, Long Beach)

Josue Rodriguez
(California State University, Long Beach)

Nicholas Breznay
(Harvey Mudd College)

Robert Kealhofer
(University of California, Berkeley)

Gilbert Lopez
(University of California, Berkeley)

Samantha Crouch
(California State University, Long Beach)

James Analytis
(University of California, Berkeley)

Claudia Ojeda-Aristizabal
(California State University, Long Beach)

Collaboration:

Amirari Diego, Naomy Marrufo, Josue Rodriguez, Nicholas Breznay, Robert Kealhofer, Gilbert Lopez, Samantha Crouch, James Analytis and Claudia Ojeda-Aristizabal

Ruthenium chloride (RuCl3) has gathered significant interest in the last years, as it is a layered material with key features such as a honeycomb geometry and bond-directional interactions, which make it a promising candidate for the experimental realization of the Kitaev-Heisenberg model. Exciting ground states have been predicted for this system, such as quantum spin liquids, consistent with recent inelastic neutron scattering experiments [1] as well as long ranged magnetic ordered states [2]. Here we present preliminary electronic transport experiments on thin crystals of RuCl3 and the effects of ionic liquid gating.

[1] A. Banergee, et al. Neutron scattering in the proximate quantum spin liquid -RuCl3. Science 356, 1055-1059 (2017).

[2] J. A. Sears, M. Songvilay, K. W. Plumb, J. P. Clancy, Y. Qiu, Y. Zhao, D. Parshall and Young-June Kim, Phys. Rev. B 91, 144420 (2015).

*This work was supported by the Department of Energy, Office of Basic Energy Sciences. Award number: DE-SC0018154.

To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2018.FWS.E01.3

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