Abstract
We use time-resolved hard x-ray diffraction to investigate the structural dynamics of the multiferroic insulator ${\mathrm{TbMnO}}_{3}$ in the low-temperature antiferromagnetic and ferroelectrically ordered phase. The lattice response following photoexcitation at 1.55 eV is detected by measuring the (0 2 4) and (1 3 $\ensuremath{-}5$) Bragg reflections. A $0.022%$ tensile strain, normal to the surface, is seen to arise within 20--40 ps. The magnitude of this transient strain is over an order of magnitude lower than that predicted from laser-induced heating, which we attribute to a bottleneck in the energy transfer between the electronic and lattice subsystems. The timescale for the transient expansion is consistent with that of previously reported demagnetization dynamics. We discuss a possible relationship between structural and demagnetization dynamics in ${\mathrm{TbMnO}}_{3}$, in which photoinduced atomic motion modulates the exchange interaction, leading to a destruction of the magnetic order in the system.
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