Bulletin of the American Physical Society
APS March Meeting 2022
Volume 67, Number 3
Monday–Friday, March 14–18, 2022; Chicago
Session K61: Superconductivity: Copper Oxide and Related Systems-I
3:00 PM–5:24 PM,
Tuesday, March 15, 2022
Room: Hyatt Regency Hotel -Field
Sponsoring
Unit:
DCMP
Chair: John Perdew, Temple University
Abstract: K61.00005 : Generic character of charge and spin density waves in superconducting cuprates*
3:48 PM–4:00 PM
Presenter:
Eduardo H Fradkin
(University of Illinois)
Authors:
Eduardo H Fradkin
(University of Illinois)
Edwin W Huang
(University of Illinois)
Sangjun Lee
(University of Illinois)
Thomas A Johnson
(University of Illinois)
Steven A Kivelson
(Stanford University)
Gregory MacDougall
(University of Illinois)
Peter Abbamonte
(University of Illinois)
La1.8-xEu0.2SrxCuO4 over a range of doping 0.07 ≤ x ≤ 0.20. For all dopings studied by RSXS, the CDW amplitude is approximately temperature-independent and develops well above experimentally accessible temperatures. Surprisingly, the CDW ordering wavevector shows a non-monotonic temperature dependence, with a sudden change occurring at temperatures near the SDW onset temperature. We describe this behavior with a Landau-Ginzburg theory for an incommensurate CDW in a metallic system with a finite charge compressibility and CDW-SDW coupling. Our Laudau-Ginzburg analysis suggests that the ordering wavevector at high temperatures decreases with increased doping. This behavior is opposite to the trend at low temperatures and highly reminiscent of the doping dependence seen in YBa2Cu3O6+δ, suggesting a common origin of the CDW in hole-doped cuprate superconductors.
*X-ray experiments were supportedby the U.S. Department of Energy, Office of BES grant no. DE-FG02-06ER46285.Use of the SSRL was supported by DOE contract DE-AC02-76SF00515.Neutron scattering experiments and growth of LESCO crystals were supported by DOE BES grant no. DE-SC0012368. The neutron measurements used the High Flux Isotope Reactor, a DOE Office of Science User Facility operated by ORNL.Theoretical work was supported by National Science Foundation grant DMR-1725401 and DOE BES grant no. DEAC02-76SF00515. We acknowledge support from the Gordon and Betty MooreFoundation grants GBMF9452 , GBMF4305 (EWH) and GMBF8691.
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