Experiments have been carried out at laser intensities of the order of 10(8
) W/m(2) using a cw argon laser and tungsten needles with roughly 1-mu m ti
p radius operated at voltages up to 50 kV. The results show a nonlinear dep
endence of the photocurrent on the laser intensity and a strong dependence
of the photocurrent on the electric field. Comparison with theoretical calc
ulations based on the Fowler-Nordheim tunneling theory of field emission in
dicates that the photoexcited electrons rapidly relax to energy levels just
above the Fermi level, from which they tunnel out. (C) 1999 Elsevier Scien
ce B.V. All rights reserved.