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O: Fachverband Oberflächenphysik
O 15: Mini-Symposium: Ultrafast surface dynamics at the space-time limit II
O 15.3: Vortrag
Montag, 1. März 2021, 14:25–14:45, R1
Towards understanding the time evolution of metastable charge-ordered states — •Yaroslav A. Gerasimenko1,2, Jan Ravnik1,3, Jaka Vodeb1, Michele Diego1, Yevhenii Vaskivskyi1, Viktor V. Kabanov1, Igor Vaskivskyi4, Tomaz Mertelj1,4, and Dragan Mihailovic1,4,5 — 1Jozef Stefan Institute, Ljubljana, Slovenia — 2University of Regensburg, Regensburg, Germany — 3Paul Scherrer Institute, Villigen, Switzerland — 4CENN Nanocenter, Ljubljana, Slovenia — 5University of Ljubljana, Ljubljana, Slovenia
Metastable self-organized electronic states in quantum materials are emergent states of matter[1] typically formed through phase transitions under non-equilibrium conditions. It is of fundamental importance to understand the process of their formation that can involve multiple mechanisms[1,2] spanning a large range of timescales.
Here we combine multiple techniques to map the evolution of metastable states in 1T-TaS2, a prototypical charge-ordered quantum material, using the photon density and temperature as control parameters on timescales ranging from 10−12 to 103s. The combination of STM and in situ ultrafast excitation allows us to observe explicitly both parametric stability and nanoscale relaxation of the light-induced metastable states on the scale of seconds, while time-resolved optical techniques and electrical measurements allow us to study the ordering and relaxation processes down to a few picoseconds. [3]
[1] Ya. A. Gerasimenko et al., Nature Materials 18, 1078-1083 (2019)
[2] Ya. A. Gerasimenko et al., npj Quantum Materials 4, 1-9 (2019)
[3] J. Ravnik et al., arXiv:2011.00930