Title :
High resolution backside fault isolation technique using directly forming Si substrate into solid immersion lens
Author :
Koyama, Tohru ; Yoshida, Eiji ; Komori, Junko ; Mashiko, Yoji ; Nakasuji, Tomoaki ; Katoh, Hiromasa
Author_Institution :
ULSI Dev. Center, Mitsubishi Electr. Corp., Itami, Japan
fDate :
30 March-4 April 2003
Abstract :
We developed a new backside fault isolation technique based on the concept of the solid immersion lens, which can be applied for the 90 nm technology node. This technique improves spatial resolution by less than 0.18 μm at λ=1.3 μm and also enhances the sensitivity in the infrared-emission microscope (IR-EMS) and the infrared-optical beam induced current (IR-OBIC) technique by directly forming the Si substrate into a hemisphere. The process of "forming the Si substrate into a solid immersion lens" (FOSSIL) will be a fundamental capability necessary to support the analysis of future minimum geometry devices.
Keywords :
OBIC; ULSI; failure analysis; fault location; forming processes; infrared imaging; integrated circuit reliability; lenses; silicon; substrates; 1.3 micron; 90 nm; 90 nm technology node; FOSSIL; Si; ULSI devices; directly formed Si substrate; hemisphere; high resolution backside fault isolation technique; infrared emission microscope; infrared-optical beam induced current technique; minimum geometry devices; sensitivity enhancement; solid immersion lens; spatial resolution; Geometrical optics; Isolation technology; Lenses; Manufacturing; Medical services; Microscopy; Modems; Silicon; Solids; Spatial resolution;
Conference_Titel :
Reliability Physics Symposium Proceedings, 2003. 41st Annual. 2003 IEEE International
Print_ISBN :
0-7803-7649-8
DOI :
10.1109/RELPHY.2003.1197804
