Title :
Optimization and application of Electron Beam Absorbed Current technique
Author :
Wei, Samuel ; Soonhuat Lim ; Zulkifli, Mohammad ; Syahirah ; Khatri, Dnyan
Author_Institution :
Device Anal. Lab., Adv. Micro Devices (Singapore) Pte Ltd., Singapore, Singapore
fDate :
June 29 2015-July 2 2015
Abstract :
Advanced microprocessors are aggressively scaled with process technology rapidly advancing to 14nm technology node. This presents a challenging task to uncover subtle physical defects resulting from resistive via/contact & shorted tight pitch metal interconnects. Electron Beam Absorbed Current (EBAC) is a promising technique that can help to identify the defective vias or metal shorts in non-invasive manner. This technique is based on scanning electron microscopy (SEM) and pizeo manipulators of tungsten tips. Metal lines are probed with tungsten probes in SEM and electrons beam current absorbed by the metal lines are collected and used to form a current or voltage contrast map of the area. Any abnormal metal EBAC image would indicate metal line defects and can be correlated with layout images.
Keywords :
electron beams; integrated circuit interconnections; microprocessor chips; scanning electron microscopy; tungsten; vias; SEM; W; defective vias; electron beam absorbed current; electrons beam current; metal lines; microprocessors; pizeo manipulators; resistive via/contact; scanning electron microscopy; shorted tight pitch metal interconnects; size 14 nm; tungsten probes; Electron beams; Metals; Noise measurement; Probes; Scanning electron microscopy; Sensitivity; Signal to noise ratio;
Conference_Titel :
Physical and Failure Analysis of Integrated Circuits (IPFA), 2015 IEEE 22nd International Symposium on the
Conference_Location :
Hsinchu
DOI :
10.1109/IPFA.2015.7224371
