Electric field induced surface modification of Au

We discuss the role of localized high electric fields in the modification o f Au surfaces with a W probe using the interfacial force microscope. Upon b ringing a probe close to a Au surface, we measure both the interfacial forc e and the field emission current as a function of separation with a constan t potential of 100 V between tip and sample. The current initially increase s exponentially as the separation decreases. However, at a distance of less than similar to 500 Angstrom, the current rises sharply as the surface beg ins to distort and rapidly close the gap. Retraction of the tip before cont act is made reveals the formation of a mound on the surface. We propose a s imple model, in which the localized high electric field under the tip assis ts the production of mobile Au adatoms by detachment from surface steps, an d a radial field gradient causes a net flux of atoms toward the tip by surf ace diffusion. These processes give rise to an unstable surface deformation which, if left unchecked, results in a destructive mechanical contact. We discuss our findings with respect to earlier work using voltage pulses in t he scanning tunneling microscope as a means of nanofabrication. (C) 1999 Am erican Institute of Physics. [S0021-8979(99)06812-7].