Publications of Philip Hofmann
All genres
Journal Article (25)
2000
Journal Article
, , Martin Polcik, Shining Bao, Philip Hofmann and Karl-Michael Schindler: Is PEXAFS really PhD?
1998
Journal Article
Briner, B.G., Philip Hofmann, Marcus Doering, Hans-Peter Rust, Alexander M. Bradshaw, , , , and : Looking at electronic wave functions on metal surfaces.
Journal Article
Briner, Beat G., Philip Hofmann, Marcus Doering, Hans-Peter Rust, and Alexander M. Bradshaw: Charge-density oscillations on Be(101¯0): Screening in a non-free two-dimensional electron gas.
Journal Article
Hofmann, Philip, Y.Q. Cai, and : Electron-Lattice Interaction on α−Ga(010).
Journal Article
, , , , V. Fritzsche, , and Philip Hofmann: Physics of the Be(101̅0) Surface Core Level Spectrum.
Journal Article
Theobald, Andreas, V. Fernandez, Oliver Schaff, Philip Hofmann, Karl-Michael Schindler, V. Fritzsche, Alexander M. Bradshaw and : Structure of adsorbed Fe on Ni{111}.
1997
Journal Article
, , , , C.J. Hirschmugl, Karl-Michael Schindler, Oliver Schaff, V. Fernandez, Andreas Theobald, Philip Hofmann, Robert Lindsay, Tatjana Gießel, Peter Baumgärtel and Alexander M. Bradshaw: Structure determination of ammonia on Cu(110) — a low-symmetry adsorption site.
Journal Article
, , , Oliver Schaff, V. Fernandez, Karl-Michael Schindler, Philip Hofmann, K.-U. Weiss, Rainer Dippel, V. Fritzsche and Alexander M. Bradshaw: Quantitative structural study of the coadsorption of CO and K on Ni(111) using photoelectron diffraction.
1996
Journal Article
, , , Karl-Michael Schindler, Philip Hofmann, Shining Bao, V. Fritzsche and Alexander M. Bradshaw: A scanned-energy mode photoelectron diffraction study of the structure of Ni(111)(2 × 2)-O.
Journal Article
, , Philip Hofmann, Oliver Schaff, V. Fernandez, Karl-Michael Schindler, V. Fritzsche and Alexander M. Bradshaw: Local structure determination for low-coverage CO on Ni(111).
Journal Article
Fernandez, V., Karl-Michael Schindler, Oliver Schaff, Philip Hofmann, Andreas Theobald, Alexander M. Bradshaw, , and : Structure determination of a COO coadsorption phase on Ni(111).
Journal Article
Hirschmugl, C.J., Karl-Michael Schindler, Oliver Schaff, V. Fernandez, Andreas Theobald, Philip Hofmann, Alexander M. Bradshaw, , , and : Quantitative structure determination of an NHx species adsorbed on Cu(110).
Journal Article
Hofmann, Philip, Oliver Schaff and Karl-Michael Schindler: Spatial Probability Distribution of Adsorbate Atoms.
Journal Article
Schaff, Oliver, V. Fernandez, Philip Hofmann, Karl-Michael Schindler, Andreas Theobald, V. Fritzsche, Alexander M. Bradshaw, and : Coverage-dependent changes in the adsorption geometry of benzene on Ni{111}.
Journal Article
, , , Alexander M. Bradshaw, C.J. Hirschmugl, Karl-Michael Schindler, Oliver Schaff, V. Fernandez, Andreas Theobald, Philip Hofmann and : An integrated approach to adsorbate structure determination using photoelectron diffraction: direct “imaging” and quantitative simulation.
1994
Journal Article
Bao, Shining, Philip Hofmann, Karl-Michael Schindler, V. Fritzsche, Alexander M. Bradshaw, , and : Determination of the local adsorption structure of acetylene on Ni(111).
Journal Article
Bao, Shining, Philip Hofmann, Karl-Michael Schindler, V. Fritzsche, Alexander M. Bradshaw, , and : Following the changes in local geometry associated with a surface reaction: the dehydrogenation of adsorbed ethylene.
Journal Article
, , , Karl-Michael Schindler, Philip Hofmann, K.-U. Weiss, Rainer Dippel, Peter Gardner, V. Fritzsche, Alexander M. Bradshaw, and : Structure determination of Ni(111)c(4 × 2)-CO and its implications for the interpretation of vibrational spectroscopic data.
Journal Article
, , , K.-U. Weiss, Rainer Dippel, Karl-Michael Schindler, Philip Hofmann, V. Fritzsche and Alexander M. Bradshaw: Photoelectron diffraction investigation of the adsorption site and local structure for potassium on Ni(111).
Journal Article
Fritzsche, V., Shining Bao, Philip Hofmann, Martin Polcik, Karl-Michael Schindler, Alexander M. Bradshaw, and : The adsorption site of pyridine on Ni{111} determined by low-energy photoelectron diffraction.