Evidence for pressure induced unconventional quantum criticality in the coupled spin ladder antiferromagnet C9H18N2CuBr4

Hong T, Ying T, Huang Q, Dissanayake SE, Qiu Y, Turnbull MM, Podlesnyak AA, Wu Y, Cao H, Liu Y, Umehara I, Gouchi J, Uwatoko Y, Matsuda M, Tennant DA, Chern GW, Schmidt KP, Wessel S (2022)

Publication Type: Journal article

Publication year: 2022

Journal

Nature Communications Nature Publishing Group: Nature Communications

Book Volume: 13

Journal Issue: 1

DOI: 10.1038/s41467-022-30769-8

Abstract

There is a class of quantum phase transitions that do not fit into the traditional Landau paradigm, but are described in terms of fractionalized degrees of freedom and emergent gauge fields. Hong et al. find evidence of such a transition in a molecular spin-1/2 antiferromagnetic ladder compound under hydrostatic pressure.

Authors with CRIS profile

Kai Phillip Schmidt Professur für Theoretische Physik

Involved external institutions

Oak Ridge National Laboratory

United States (USA) (US) Harbin Institute of Technology (HIT) / 哈工大

China (CN) University of Tennessee (UTK)

United States (USA) (US) University of Rochester (UR)

United States (USA) (US) National Institute of Standards and Technology (NIST)

United States (USA) (US) Clark University

United States (USA) (US) Yokohama National University

Japan (JP) University of Tokyo

Japan (JP) University of Virginia (UVA)

United States (USA) (US) Rheinisch-Westfälische Technische Hochschule (RWTH) Aachen

Germany (DE)

How to cite

APA:

Hong, T., Ying, T., Huang, Q., Dissanayake, S.E., Qiu, Y., Turnbull, M.M.,... Wessel, S. (2022). Evidence for pressure induced unconventional quantum criticality in the coupled spin ladder antiferromagnet C9H18N2CuBr4. Nature Communications, 13(1). https://doi.org/10.1038/s41467-022-30769-8

MLA:

Hong, Tao, et al. "Evidence for pressure induced unconventional quantum criticality in the coupled spin ladder antiferromagnet C9H18N2CuBr4." Nature Communications 13.1 (2022).

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