Publications of Michael Meyer
All genres
Journal Article (9)
2015
Journal Article
Deinert, Jan-Christoph, Oliver T. Hofmann, Michael Meyer, Patrick Rinke and Julia Stähler: Local aspects of hydrogen-induced metallization of the ZnO(101¯0) surface.
Journal Article
Meyer, Michael, , Martin Wolf and : Ultrafast electron dynamics at water covered alkali adatoms adsorbed on Cu(111).
2014
Journal Article
Deinert, Jan-Christoph, Daniel Wegkamp, Michael Meyer, Clemens Richter, Martin Wolf and Julia Stähler: Ultrafast Exciton Formation at the ZnO(101¯0) Surface.
2013
Journal Article
Wegkamp, Daniel, Michael Meyer, Clemens Richter, Martin Wolf and Julia Stähler: Photoinduced work function modifications and their effect on photoelectron spectroscopy.
2011
Journal Article
Meyer, Michael, , , Daniel Wegkamp, Marcel Krenz and Martin Wolf: Ultrafast Dynamics at the Na/D2O/Cu(111) Interface: Electron Solvation in Ice Layers and Na+-Mediated Surface Solvation.
Journal Article
Stähler, Julia, Michael Meyer, and Martin Wolf: Solvation dynamics of surface-trapped electrons at NH3 and D2O crystallites adsorbed on metals: from femtosecond to minute timescales.
2009
Journal Article
Michael Meyer, Julia Stähler, , Martin Wolf and : , Reactivity of water–electron complexes on crystalline ice surfaces.
2008
Journal Article
Meyer, Michael, Julia Stähler, , Martin Wolf and : Determination of the electron's solvation site on D2O/Cu(111) using Xe overlayers and femtosecond photoelectron spectroscopy.
Journal Article
Stähler, Julia, Michael Meyer, , and Martin Wolf: Ultrafast electron transfer dynamics at NH3/Cu(111) interfaces: Determination of the transient tunneling barrier.
Talk (1)
2013
Talk
Stähler, Julia, Jan-Christoph Deinert, Michael Meyer, Daniel Wegkamp and Martin Wolf: Ultrafast Surface Dynamics of ZnO(10-10): Photons, Electrons, and Excitons.
(8th International Symposium on Ultrafast Surface Dynamics, Colorado, USA, May 2013).
Thesis - PhD (1)
2011
Thesis - PhD
Meyer, Michael: Ultrafast Electron Dynamics at Alkali/Ice Structures Adsorbed on a Metal Surface.