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Tracking local magnetic dynamics via high-energy charge excitations in a relativistic Mott insulator

We use time- and energy-resolved optical spectroscopy to investigate the coupling of electron-hole excitations to the magnetic environment in the relativistic Mott insulator Na$_2$IrO$_3$. We show that, on the picosecond timescale, the photoinjected electron-hole pairs delocalize on the hexagons of the Ir lattice via the formation of quasi-molecular orbital (QMO) excitations and the exchange of energy with the short-range-ordered zig-zag magnetic background. The possibility of mapping the magnetic dynamics, which is characterized by typical frequencies in the THz range, onto high-energy (1-2 eV) charge excitations provides a new platform to investigate, and possibly control, the dynamics of magnetic interactions in correlated materials with strong spin-orbit coupling, even in the presence of complex magnetic phases.

preprint2016arXivOpen access
Nicola NembriniSimone PeliFrancesco BanfiGabriele FerriniYogesh SinghPhilipp GegenwartRiccardo CominKateryna FoyevtsovaAndrea DamascelliAdolfo AvellaClaudio Giannetti
cond-mat.str-el
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Nicola NembriniSimone PeliFrancesco BanfiGabriele FerriniYogesh SinghPhilipp GegenwartRiccardo CominKateryna FoyevtsovaAndrea DamascelliAdolfo AvellaClaudio Giannetti

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