A light-induced charge order mode in a metastable cuprate ladder

Oral-In-person  · Withdrawn

Abstract

We report the observation of an emergent charge order mode in the optically-excited cuprate ladder Sr14Cu24O41. Near-infrared light in the ladder plane drives a symmetry-protected electronic metastable state together with a partial melting of the equilibrium charge order. Our time-resolved resonant inelastic x-ray scattering measurements at the upper Hubbard band reveal a gapless collective excitation dispersing from the charge-order wavevector up to 0.8 eV, with a slope on the order of the quasiparticle velocity. These findings reveal a regime where correlated carriers acquire itinerant character at finite momentum, and charge order becomes dynamically fluctuating, offering a platform to explore light-induced pairing instabilities.

Presenters

  • Hari Padma

    • Harvard University

Authors

  • Hari Padma

    • Harvard University
  • Prakash Sharma

    • Emory University
  • Sophia TenHuisen

    • Harvard University
  • Filippo Glerean

    • Brookhaven National Laboratory
  • Antoine Roll

  • Sarbajaya Kundu

    • University of Notre Dame
  • Elizabeth Skoropata

    • Paul Scherrer Institute
  • Hiroki Ueda

  • Biaolong Liu

  • Eugenio Paris

  • Yu Wang

    • Pennsylvania State University
  • Seng Huat Lee

    • Pennsylvania State University
  • Zhiqiang Mao

    • Pennsylvania State University
  • Mark Dean

    • Brookhaven National Laboratory (BNL)
  • Edwin Huang

    • University of Notre Dame
  • Yao Wang

    • Emory University
  • Elia Razzoli

    • University of British Columbia
  • Matteo Mitrano

    • Harvard University