Caltech Home > PMA Home > Calendar > IQIM Postdoctoral and Graduate Student Seminar
open search form
Friday, May 12, 2023
12:00 PM - 1:00 PM
East Bridge 114

IQIM Postdoctoral and Graduate Student Seminar

Light induced metastable spin-orbital order in Ca2RuO4
Xinwei Li, Troesh Postdoctoral Scholar,

Abstract: There is growing interest recently to achieve novel far-from-equilibrium orders in quantum matter driven by dynamical controlling parameters. Experimentally, impulsive laser excitation of solids has been identified as a promising strategy for achieving macroscopic quantum states that are otherwise inaccessible or hidden in thermal equilibrium; examples include light-induced superconductivity, dynamical ferroelectricity, and unconventional charge orders. In this talk, I will show our recent demonstration of a light-induced spin-orbital order in Ca2RuO4 single crystals, a type of correlated antiferromagnetic insulator featuring strong charge-lattice and spin-orbital couplings. Upon photodoping the crystal with laser pulses, we observed an ultrafast melting of the native antiferromagnetic order on picosecond timescales and its recovery when laser pulses were removed for long enough time. However, we identified an intermediate time window within which the crystal develops a long-range spin-orbital entangled order that is distinct from any known phase of the same material along any static tuning knob. The new order is metastable in nature and results from trapping of the system in a local minimum in the free energy landscape. Our results pave the way for steering correlated materials into hidden states by providing laser-induced directional control of the system's trajectory in the phase space.

Lunch will be provided, following the talk, on the lawn north of the Bridge Arcade

Attendees joining in person must demonstrate that they comply with Caltech's vaccination requirements (present Caltech ID or AWS ID or vaccination and booster confirmation).

For more information, please contact Marcia Brown by phone at 626-395-4013 or by email at [email protected].