The constitutive behavior of passivated copper films is studied. Stresses in copper films of thickness ranging from 1000 nm to 40 nm, passivated with silicon oxide on a quartz or silicon substrate, were measured using the curvature method. The thermal cycling spans a temperature range from - 196 to 600°C. It is seen that the strong relaxation at high temperatures normally found in unpassivated films is nonexistent for passivated films. The copper film did not show any rate-dependent effect over a range of heating/cooling rate from 5 to 25°C/min. Further analyses showed that significant strain hardening exists during the course of thermal loading. In particular, the measured stress- temperature response can only be fitted with a kinematic ha...
The material properties of OFHC copper film was investigated with the High-Speed Material Micro Test...
We investigate the elasto-plastic deformation properties of a 20-nm-thick copper (Cu) thin film. A n...
Copper films of different thicknesses between 0.2 and 2 microns were electroplated on adhesion-promo...
The constitutive behavior of passivated copper films is studied. Stresses in copper films of thickne...
The thermomechanical behavior of passivated thin copper films is studied. Stresses in copper films o...
The temperature-dependent mechanical behavior of passivated copper films is studied. Stresses in cop...
The temperature-dependent mechanical behavior of passivated copper films is studied. Stresses in cop...
Investigations were carried out on 0.3-1 #mu#m copper films deposited by LPCVD on thermally oxidized...
textThermal stress and mass transport are key issues for Cu metallization yield and reliability. In...
textThermomechanical stresses in the copper interconnects are directly related to void formation an...
The aim is to study the behaviour of copper film stack deposited on silicon wafers as a function of ...
Thin metal layers, especially those made of copper, are omnipresent in today's packaging application...
A wafer curvature technique was used to measure the in-plane mechanical stresses in thin metal films...
textIn this study, the stress relaxation and electromigration behaviors of Cu/low-k interconnects w...
We investigate the elasto-plastic deformation properties of a 20-nm-thick copper (Cu) thin film. A n...
The material properties of OFHC copper film was investigated with the High-Speed Material Micro Test...
We investigate the elasto-plastic deformation properties of a 20-nm-thick copper (Cu) thin film. A n...
Copper films of different thicknesses between 0.2 and 2 microns were electroplated on adhesion-promo...
The constitutive behavior of passivated copper films is studied. Stresses in copper films of thickne...
The thermomechanical behavior of passivated thin copper films is studied. Stresses in copper films o...
The temperature-dependent mechanical behavior of passivated copper films is studied. Stresses in cop...
The temperature-dependent mechanical behavior of passivated copper films is studied. Stresses in cop...
Investigations were carried out on 0.3-1 #mu#m copper films deposited by LPCVD on thermally oxidized...
textThermal stress and mass transport are key issues for Cu metallization yield and reliability. In...
textThermomechanical stresses in the copper interconnects are directly related to void formation an...
The aim is to study the behaviour of copper film stack deposited on silicon wafers as a function of ...
Thin metal layers, especially those made of copper, are omnipresent in today's packaging application...
A wafer curvature technique was used to measure the in-plane mechanical stresses in thin metal films...
textIn this study, the stress relaxation and electromigration behaviors of Cu/low-k interconnects w...
We investigate the elasto-plastic deformation properties of a 20-nm-thick copper (Cu) thin film. A n...
The material properties of OFHC copper film was investigated with the High-Speed Material Micro Test...
We investigate the elasto-plastic deformation properties of a 20-nm-thick copper (Cu) thin film. A n...
Copper films of different thicknesses between 0.2 and 2 microns were electroplated on adhesion-promo...