Simone Wall scite author profile

We used ultrafast electron diffraction and density-functional theory calculations to gain insight into the charge density wave (CDW) formation on In/Si(111). Weak excitation by a femtosecond-laser pulse results in the melting of the CDW. The immediate freezing is hindered by a barrier for the motion of atoms during the phase transition: The melted CDW constitutes a long-lived, supercooled phase and is strong evidence for a first-order transition. The freezing into the CDW is triggered by preexisting adsorbates. Starting at these condensation nuclei, the CDW expands one dimensionally on the In/Si(111) surface, with a constant velocity of more than 80 m/s.

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Hysteresis proves that the In/Si(111)(8×2)to(4×1)phase transition is first-order

Klasing

Frigge

Hafke

et al. 2014

Phys. Rev. B

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Ultra-fast electron diffraction at surfaces: From nanoscale heat transport to driven phase transitions

et al. 2013

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Simone Wall

Normal-Incidence Photoemission Electron Microscopy (NI-PEEM) for Imaging Surface Plasmon Polaritons

Atomistic Picture of Charge Density Wave Formation at Surfaces

Hysteresis proves that the In/Si(111)(8×2)to(4×1)phase transition is first-order

Ultra-fast electron diffraction at surfaces: From nanoscale heat transport to driven phase transitions

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