TY - JOUR A1 - Hanisch-Blicharski, Anja A1 - Janzen, A. A1 - Krenzer, B. A1 - Wall, S. A1 - Klasing, F. A1 - Kalus, A. A1 - Frigge, Tim A1 - Kammler, Martin A1 - Horn-von Hoegen, Michael T1 - Ultra-fast electron diffraction at surfaces: from nanoscale heat transport to driven phase transitions JF - Ultramicroscopy N2 - Many fundamental processes of structural changes at surfaces occur on a pico- or femtosecond time scale. In order to study such ultra-fast processes, we have combined modern surface science techniques with fs-laser pulses in a pump-probe scheme. Reflection high energy electron diffraction (RHEED) with grazing incident electrons ensures surface sensitivity for the probing electron pulses. Utilizing the Debye-Waller effect, we studied the cooling of vibrational excitations in monolayer adsorbate systems or the nanoscale heat transport from an ultra-thin film through a hetero-interface on the lower ps-time scale. The relaxation dynamics of a driven phase transition far away from thermal equilibrium is demonstrated with the In-induced (8×2) reconstruction on Si(111). This surface exhibits a Peierls-like phase transition at 100K from a (8×2) ground state to (4×1) excited state. Upon excitation by a fs-laser pulse, this structural phase transition is driven into an excited (4×1) state at a sample temperature of 20K. Relaxation into the (8×2) ground state occurs after more than 150 ps. Y1 - 2013 U6 - https://doi.org/10.1016/j.ultramic.2012.07.017 VL - 127 SP - 2 EP - 8 PB - Elsevier ER - TY - JOUR A1 - Wall, Simone A1 - Krenzer, Boris A1 - Wippermann, Stefan A1 - Sanna, Simone A1 - Klasing, Friedrich A1 - Hanisch-Blicharski, Anja A1 - Kammler, Martin A1 - Schmidt, Wolf Gero A1 - Horn-von Hoegen, Michael T1 - Atomistic picture of charge density wave formation at surfaces JF - Physical review letters N2 - 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. Y1 - 2012 U6 - https://doi.org/10.1103/PhysRevLett.109.186101 VL - 109 IS - 18 PB - APS ER - TY - JOUR A1 - Streubühr, C. A1 - Kalus, A. A1 - Zhou, P. A1 - Ligges, M. A1 - Hanisch-Blicharski, Anja A1 - Kammler, Martin A1 - Bovensiepen, U. A1 - Horn-von Hoegen, Michael A1 - von der Linde, D. T1 - Comparing ultrafast surface and bulk heating using time-resolved electron diffraction JF - Applied Physics Letters N2 - From measurements of the transient Debye-Waller effect in Bismuth, we determine the buildup time of the random atomic motion resulting from the electronic relaxation after short pulse laser excitation. The surface sensitive reflection high energy electron diffraction and transmission electron diffraction yield a time constant of about 12 ps and 3 ps, respectively. The different energy transfer rates indicate relatively weak coupling between bulk and surface vibrational modes. (C) 2014 AIP Publishing LLC. Y1 - 2014 U6 - https://doi.org/10.1063/1.4872055 VL - 104 SP - 1 EP - 3 PB - American Institute of Physics ER - TY - CHAP A1 - Zhou, P. A1 - Streubühr, C. A1 - Kalus, A. A1 - Frigge, Tim A1 - Wall, S. A1 - Hanisch-Blicharski, Anja A1 - Kammler, Martin A1 - Ligges, M. A1 - Bovensiepen, U. A1 - von der Linde, D. A1 - Horn-von Hoegen, Michael T1 - Ultrafast time resolved reflection high energy electron diffraction with tilted pump pulse fronts T2 - EPJ Web of Conferences - XVIIIth International Conference on Ultrafast Phenomena N2 - We present time-resolved RHEED from a laser excited Pb(111) surface using a pulse front tilter for the compensation of the velocity mismatch of electrons and light. The laser pulses with tilted fronts were characterized by a spatially resolving cross correlator. The response of the surface upon excitation was observed to be less than 2 ps. Y1 - 2013 U6 - https://doi.org/10.1051/epjconf/20134110016 VL - 41 PB - EPJ ER - TY - JOUR A1 - Frigge, Tim A1 - Wall, S. A1 - Krenzer, B. A1 - Wippermann, St. A1 - Sanna, S. A1 - Klasing, F. A1 - Hanisch-Blicharski, Anja A1 - Kammler, Martin A1 - Schmidt, W. G. A1 - Horn-von Hoegen, Michael T1 - Abstract - A Reply to the Comment by H. Shim et al. JF - Physical review letters Y1 - 2013 U6 - https://doi.org/10.1103/PhysRevLett.111.149602 VL - 111 IS - 14 PB - American Physical Society ER - TY - JOUR A1 - Frigge, Tim A1 - Kalus, Annika A1 - Klasing, Friedrich A1 - Kammler, Martin A1 - Hanisch-Blicharski, Anja A1 - Horn-von Hoegen, Michael T1 - Nanoscale Heat Transport in Self-Organized Ge Clusters on Si(001) JF - MRS Online Proceedings Library N2 - Ultrafast time resolved transmission electron diffraction (TED) in a reflection geometry was used to study the cooling behavior of self-organized, well defined nanoscale germanium hut and dome clusters on Si(001). The clusters were heated in a pump-probe scheme by fs-laser pulses. The resulting transient temperature rise was then determined from the drop in diffraction intensity caused by the Debye-Waller effect. From a cooling time of τ=177 ps we estimated a strongly reduced heat transfer compared with homogeneous films of equivalent thickness. Y1 - 2012 U6 - https://doi.org/10.1557/opl.2013.148 SP - 45 EP - 50 PB - Springer ER - TY - JOUR A1 - Möllenbeck, Simone A1 - Hanisch-Blicharski, Anja A1 - Schneider, Paul A1 - Ligges, Manuel A1 - Zhou, Ping A1 - Kammler, Martin A1 - Krenzer, Boris A1 - Horn-von Hoegen, Michael T1 - Ultra-fast Time-Resolved Electron Diffraction of Strongly Driven Phase Transitions on Silicon Surfaces JF - MRS Online Proceedings Library N2 - The dynamics of strongly driven phase transitions at surfaces are studied by ultra-fast time-resolved reflection high energy electron diffraction. The surfaces are excited by an intense fs-laser pulse (pump) and probed by an ultra-short electron pulse with variable time delay. The order-disorder phase transition from a c(4 × 2) to a(2 × 1) of the bare Si(001) surface shows a transient decrease of the intensity of the c(4 × 2) spots which recovers on a time scale of a few hundred picoseconds indicating the excitation of the phase transition. On Si(111) a monolayer of Indium induces a (4 × 1) reconstruction which undergoes a Peierls like phase transition to a (8 × "2") reconstruction below 100 K. Upon laser excitation with a fluence of 3.4 mJ/cm 2 at a temperature of 72 K the phase transition was strongly driven. The (8 × "2")-diffraction spots instantaneously disappears, while the intensity of the (4 × 1)-spots increases. This increase of the (4 × 1) spot intensity excludes an explanation by the Debye-Waller-Effect and is evidence for a true structural phase transition at a surface. © 2010 Materials Research Society. Y1 - 2009 U6 - https://doi.org/10.1557/PROC-1230-MM03-09 PB - Springer ER - TY - JOUR A1 - Krenzer, B. A1 - Hanisch-Blicharski, Anja A1 - Schneider, P. A1 - Payer, Th. A1 - Möllenbeck, S. A1 - Osmani, O. A1 - Kammler, Martin A1 - Meyer, R. A1 - Horn-von Hoegen, Michael T1 - Phonon confinement effects in ultrathin epitaxial bismuth films on silicon studied by time-resolved electron diffraction JF - Physical Review B N2 - The transient temperature evolution of ultrathin bismuth films, epitaxially grown on a silicon single crystal, upon femtosecond laser excitation is studied by time-resolved electron diffraction. The exponential decay of the film temperature is explained by phonon reflection at the interface, which results in a strongly reduced thermal conduction in the cross plane of the layered system. The thermal boundary conductance is found to be as low as 1273 W/(K cm2). Model calculations, including phonon confinement effects, explain the linear relationship between the observed film-temperature decay constant and the film thickness. Even for 2.5 nm thin films the phonon transmission probability across the interface is given by bulk properties. Our simulations show that phonon confinement effects are negligible for bismuth-film thicknesses larger than 1 nm. Y1 - 2009 U6 - https://doi.org/10.1103/PhysRevB.80.024307 VL - 80 IS - 2 PB - APS ER - TY - JOUR A1 - Hanisch-Blicharski, Anja A1 - Krenzer, Boris A1 - Möllenbeck, Simone A1 - Ligges, Manuel A1 - Zhou, Ping A1 - Kammler, Martin A1 - Horn-von Hoegen, Michael T1 - Transient Cooling of Ultrathin Epitaxial Bi(111)-Films on Si(111) Upon Femtosecond Laser Excitation Studied by Ultrafast Reflection High Energy Electron Diffraction JF - MRS Online Proceedings Library N2 - With time resolved ultrafast electron diffraction the cooling process across the interface between a thin film and the underlying substrate was studied after excitation with short laser pulses. From the exponential decay of the surface temperature evolution a thermal boundary conductance of 1430 W/(cm2K) is determined for a 9.7 nm thin Bi(111) film on Si(111). A linear dependence between laser fluence and initial temperature rise was measured for film-thicknesses between 2.5 nm and 34.5 nm. The ratio of initial temperature rise and laser fluence for different film-thicknesses is compared to a model taking multilayer optics into account. The data agree well with this model. Y1 - 2009 U6 - https://doi.org/10.1557/PROC-1172-T04-08 SP - 1 EP - 6 PB - Springer ER -