W. Steinmann, 2-PHOTON PHOTOEMISSION SPECTROSCOPY OF ELECTRONIC STATES AT METAL-SURFACES, Physica status solidi. b, Basic research, 192(2), 1995, pp. 339-356
In two-photon photoemission a photon from a pulsed laser excites an el
ectron from a state below the Fermi level to an unoccupied intermediat
e state below the vacuum level. A second photon of the same pulse ioni
zes the intermediate state. The energy distribution of the photoelectr
ons yields information on the position and the lifetime of both the in
itial and, in particular, the intermediate state. Most of the work in
two-photon photoemission spectroscopy has been devoted to the investig
ation of image potential states (image states). They are bound states
of electrons in front of metal surfaces in the potential well built by
the image potential and the surface. The situation is analogous to th
e hydrogen atom, with a binding energy of the lowest state of 850 meV
in first approximation. Up to four members of the Rydberg series are d
etected. Experimental results on the binding energy of image states in
(111) and (100) surfaces of Ag, Ay Cu, and Pd agree with calculations
by a one-dimensional scattering model. The results for Co, Ni, and Fe
are not yet understood. The effective mass is close to unity except f
or Ag(111). Lifetimes between 5 and 170 fs are measured. They can be e
xplained by decay via electron-hole pair creation in the bulk. Image s
tates on metal overlayers yield information on film growth and surface
morphology. Dielectric overlayers are been investigated. Adsorbate st
ates of atoms and molecules adsorbed on metal substrates can also be s
tudied by two-photon photoemission spectroscopy. Results for Na, O, CO
, and NO on Cu(111) are reported.