Deformation Studies of Tungsten-Gold Contacts at the Nanometer Scale.


Autoria(s): Smallwood, Steven A.
Data(s)

01/01/2001

Resumo

The deformation behavior of atomically clean, nanometer sized tungsten / gold contacts was studied at room temperature in ultra-high vacuum. An instrument that combines atomic force microscopy (AFM), scanning tunneling microscopy (STM), and field ion microscopy (FIM) into a single experimental apparatus was designed, constructed, and calibrated. A cross-hair force sensor having a spring constant of - 442 N/m was developed and its motion was monitored during indentation experiments with a differential interferometer. Tungsten tips of controlled size (12.8 nm < tip radius < 2 1.6 nm) were first shaped and characterized using FIM and then indented into a Au (1 10) single crystal to depths ranging from 1.5 nrn to 18 nm using the force sensor. Continuum mechanics models were found to be valid in predicting elastic deformation during initial contact and plastic zone depths despite our small size regime. Multiple discrete yielding events lasting < 1.5 ms were observed during the plastic deformation regime; at the yield points a maximum value for the principal shear stress was measured to be 5 + 1 GPa. During tip withdrawal, "pop-out" events relating to material relaxation within the contact were observed. Adhesion between the tip and sample led to experimental signatures that suggest neck formation prior to the break of contact. STM images of indentation holes revealed various shapes that can be attributed to the (1 1 1 ) (1 10) crystallographic slip system in gold. FIM images of the tip after indentation showed no evidence of tip damage

Formato

application/pdf

Identificador

http://digitalcommons.library.umaine.edu/etd/329

http://digitalcommons.library.umaine.edu/cgi/viewcontent.cgi?article=1306&context=etd

Publicador

DigitalCommons@UMaine

Fonte

Electronic Theses and Dissertations

Palavras-Chave #Tungsten alloys #nanostructures #Atomic, Molecular and Optical Physics #Physics
Tipo

text