Title :
Combining surface microtopography and subsurface defect imaging for broad-spectrum metalization defect quantification
Author :
Smith, W. Lee ; Welles, Clifford G. ; Bivas, Albert ; George, Alan
Author_Institution :
Thermal-Wave Inc., Fremont, CA, USA
Abstract :
Describes and reviews examples of metalization characterizations that result when submicron-resolution surface topography (imaged by laser deflection) and subsurface defect imaging (detected by laser-based thermal wave modulated reflectance) are performed simultaneously. By contrasting the set of imaged signals (6 in all, recorded in typically 4 min for typical (100 μm)2 area), immediate identification of subsurface versus surface defects is obtained. The dominant defect type is then revealed and the degree of spatial correlation of one defect type with another is learned. Because all the data are obtained nondestructively, the device wafer may then be subjected to stress and reimaged to determine the growth rates or interactions of the defect types
Keywords :
VLSI; measurement by laser beam; metallisation; optical microscopy; reliability; VLSI; broad-spectrum metalization defect quantification; laser deflection; laser-based thermal wave modulated reflectance; multilevel interconnection; reliability issues; set of imaged signals; simultaneous measurements; spatial correlation; submicron-resolution surface topography; subsurface defect imaging; surface microtopography; Optical imaging; Optical surface waves; Reflectivity; Rough surfaces; Silicon alloys; Surface emitting lasers; Surface roughness; Surface texture; Surface topography; Temperature;
Conference_Titel :
VLSI Multilevel Interconnection Conference, 1991, Proceedings., Eighth International IEEE
Conference_Location :
Santa Clara, CA
Print_ISBN :
0-87942-673-X
DOI :
10.1109/VMIC.1991.153000
