Bulletin of the American Physical Society
APS March Meeting 2020
Volume 65, Number 1
Monday–Friday, March 2–6, 2020; Denver, Colorado
Session S61: Metal-Insulator Transition in 4d/5d Systems
11:15 AM–2:15 PM,
Thursday, March 5, 2020
Room: Mile High Ballroom 4B
Sponsoring
Units:
DMP DCMP
Chair: Tomohiro Takayama, Max Planck Inst
Abstract: S61.00001 : Raman scattering from current-stabilized nonequilibrium phases in Ca2RuO4*
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Abstract 
Presenter:
Katrin Fuersich
(Solid State Spectrsocopy, Max Planck Institute for Solid State Research)
Authors:
Katrin Fuersich
(Solid State Spectrsocopy, Max Planck Institute for Solid State Research)
Joel Bertinshaw
(Solid State Spectrsocopy, Max Planck Institute for Solid State Research)
Paul L Butler
(Solid State Spectrsocopy, Max Planck Institute for Solid State Research)
Maximilian Krautloher
(Solid State Spectrsocopy, Max Planck Institute for Solid State Research)
Matteo Minola
(Solid State Spectrsocopy, Max Planck Institute for Solid State Research)
Bernhard Keimer
(Solid State Spectrsocopy, Max Planck Institute for Solid State Research)
phases in Ca2RuO4. By determining the local temperature through careful analysis of the Stokes and anti-Stokes
intensities, we find that Joule heating can be completely avoided by supplying sufficient cooling power in
a helium-flow cryostat and that the current induces the semimetallic state without inducing any significant
heating [1]. We further investigate the current-induced semimetallic state as a function of temperature and current.
We confirm the absence of long-range antiferromagnetic order [2] and identify a substantial Fano broadening of
several phonons, which suggests coupling to charge and orbital fluctuations. Our results demonstrate that the
semimetallic state is a genuine effect of the applied electrical current and that the current-induced phases have
characteristics distinct from the equilibrium ones.
[1] K. Fürsich et al., Phys. Rev. B 100, 081101(R) (2019)
[2] J. Bertinshaw et al., Phys. Rev. Lett. 123, 137204 (2019)
*We acknowledge support from the European Research Council under Advanced Grant No. 669550 (Com4Com) and from the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) - Projektnummer 107745057 - TRR 80.
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