Photoemission orbital tomography based on tight-binding approach: Method and application to -conjugated molecules

Conventional photoemission orbital tomography based on the Fourier iterative method enables us to extract a projected two-dimensional (2D) molecular orbital from a 2D photoelectron momentum map (PMM) of planar pi-conjugated molecules in a single -orientation system but not in a multiorientation system. In this work, we demonstrate photoemission orbital tomography for pi -conjugated molecules with a tight -binding ansatz using an atomic orbital basis. We analyze 2D PMMs of single -orientation pentacene/Ag(110) and multiorientation 3,4,9,10-perylenetetracarboxylic dianhydride/Ag(110) and reproduce their three-dimensional highest occupied molecular orbitals. We demonstrate that the PhaseLift algorithm can be used to analyze PMMs including experimental or theoretical uncertainties. With the 2D PMM for pentacene, we simultaneously optimize the structure and the molecular orbital. The present approach enables us to extract the three-dimensional orbitals and structures of existing materials.