| Literature DB >> 32441965 |
Qisi Wang1, M Horio1, K von Arx1, Y Shen2, D John Mukkattukavil3, Y Sassa4, O Ivashko1, C E Matt1,5, S Pyon6, T Takayama6, H Takagi6, T Kurosawa7, N Momono7,8, M Oda7, T Adachi9, S M Haidar10, Y Koike10, Y Tseng5, W Zhang5, J Zhao2,11, K Kummer12, M Garcia-Fernandez13, Ke-Jin Zhou13, N B Christensen14, H M Rønnow15, T Schmitt5, J Chang1.
Abstract
We use resonant inelastic x-ray scattering to investigate charge-stripe correlations in La_{1.675}Eu_{0.2}Sr_{0.125}CuO_{4}. By differentiating elastic from inelastic scattering, it is demonstrated that charge-stripe correlations precede both the structural low-temperature tetragonal phase and the transport-defined pseudogap onset. The scattering peak amplitude from charge stripes decays approximately as T^{-2} towards our detection limit. The in-plane integrated intensity, however, remains roughly temperature independent. Therefore, although the incommensurability shows a remarkably large increase at high temperature, our results are interpreted via a single scattering constituent. In fact, direct comparison to other stripe-ordered compounds (La_{1.875}Ba_{0.125}CuO_{4}, La_{1.475}Nd_{0.4}Sr_{0.125}CuO_{4}, and La_{1.875}Sr_{0.125}CuO_{4}) suggests a roughly constant integrated scattering intensity across all these compounds. Our results therefore provide a unifying picture for the charge-stripe ordering in La-based cuprates. As charge correlations in La_{1.675}Eu_{0.2}Sr_{0.125}CuO_{4} extend beyond the low-temperature tetragonal and pseudogap phase, their emergence heralds a spontaneous symmetry breaking in this compound.Year: 2020 PMID: 32441965 DOI: 10.1103/PhysRevLett.124.187002
Source DB: PubMed Journal: Phys Rev Lett ISSN: 0031-9007 Impact factor: 9.161