Speaker
Yi-De Chuang
(Advanced Light Source, Lawrence Berkeley National Laboratory)
Description
Electronic orderings in correlated systems can compete and/or cooperate with electron itinerancy and lead to the emergence phenomena like colossal magnetoresistance (CMR) and high temperature superconductivity (HTSC). To understand how these orderings can show up from strong correlations, resonant soft X-ray scattering (RSXS) spectroscopy has been demonstrated as one of the most powerful probes for addressing this question. Although quasi-static nature of orderings has been widely studied with RSXS, nevertheless, their dynamics remains largely unexplored. In this presentation, we will show the construction of a new RSXS endstation equipped with compact-fast CCD camera that allows us to carry out time-resolved RSXS experiments at the LCLS, and the time-resolved RSXS data on stripe-phase nickelate revealing the hierarchical temporal scales for charge and spin stripes in laser-induced transient state.
Primary authors
Wei-Sheng Lee
(SIMES, SLAC National Laboratory and Stanford University)
Yi-De Chuang
(Advanced Light Source, Lawrence Berkeley National Laboratory)
Co-authors
David Reis
(PULSE, SLAC National Accelerator Laboratory)
Dionisio Doering
(Engineering Division, Lawrence Berkeley National Laboratory)
Donghui Lu
(SSRL, SALC National Accelerator Laboratory)
Joe Robinson
(Material Science Division, Lawrence Berkeley National Laboratory)
Joshua Turner
(LCLS, SLAC National Accelerator Laboratory)
Luc Patthey
(Swiss Light Source, Paul Scherrer Institute)
Mariano Trigo
(PULSE, SLAC National Accelerator Laboratory)
Matthew Langner
(Material Science Division, Lawrence Berkeley National Laboratory)
Michael Foerst
(Max Planck Research Group for Structural Dynamics, CFEL, DESY)
Ming Yi
(SIMES, SLAC National Laboratory and Stanford University)
Nils Huse
(Material Science Division, Lawrence Berkeley National Laboratory)
Oleg Krupin
(European XFEL)
Patrick Kirchmann
(SIMES, SLAC National Laboratory and Stanford University)
Peter Denes
(Engineering Division, Lawrence Berkeley National Laboratory)
Rob Moore
(SIMES, SLAC National Laboratory and Stanford University)
Robert Kaindl
(Material Science Division, Lawrence Berkeley National Laboratory)
Robert Schoenlein
(Advanced Light Source, Lawrence Berkeley National Laboratory)
Shuyun Zhou
(Advanced Light Source, Lawrence Berkeley National Laboratory)
Steve Johnson
(Swiss Light Source, Paul Scherrer Institute)
Takao Sasagawa
(Tokyo Tech University)
Tom Devereaux
(SIMES, SLAC National Laboratory and Stanford University)
William Schlotter
(LCLS, SLAC National Accelerator Laboratory)
Yi Zhu
(Material Science Division, Lawrence Berkeley National Laboratory)
Yulin Chen
(SIMES, SLAC National Laboratory and Stanford University)
Zahid Hussain
(Advanced Light Source, Lawrence Berkeley National Laboratory)
Zhi-Xun Shen
(SIMES, SLAC National Laboratory and Stanford University)