Title :
Study of metal impurities behavior due to difference in isolation structure on ULSI devices
Author :
Matsukawa, K. ; Kimura, Y. ; Yamamoto, H. ; Mashiko, Y.
Author_Institution :
ULSI Dev. Center, Mitsubishi Electr. Corp., Hyogo, Japan
Abstract :
We have studied the behavior of metal impurities such as Cu and Ni with different isolation techniques in ULSI devices. We have found that the stress at a shallow trench isolation (STI) structure is larger than that of a local-oxidation-of-silicon (LOCOS) structure by using convergent beam electron diffraction (CBED). With LOCOS, the highly doped substrate efficiently gettered Cu. However, with STI, a small amount of Cu diffused to the device area due to the high stress. On the other hand, the high density of bulk micro defects (BMD) generated with the thermal processing of STI effectively getters Ni impurities. With the LOCOS-based wafer, a large amount of Ni diffuses to the device region because of the low BMD density
Keywords :
ULSI; electron diffraction; failure analysis; getters; heat treatment; impurity distribution; integrated circuit reliability; integrated circuit testing; isolation technology; oxidation; BMD density; CBED; Cu; Cu diffusion; Cu gettering; Cu impurities; LOCOS; LOCOS structure; LOCOS-based wafer; Ni; Ni diffusion; Ni gettering; Ni impurities; STI; STI structure; ULSI devices; bulk micro defects; convergent beam electron diffraction; device region; highly doped substrate; isolation structure; isolation techniques; local-oxidation-of-silicon structure; metal impurities; shallow trench isolation structure; thermal processing; Capacitive sensors; Electron beams; Etching; Gettering; Impurities; Pollution measurement; Silicon; Surface cleaning; Thermal stresses; Ultra large scale integration;
Conference_Titel :
Reliability Physics Symposium, 2001. Proceedings. 39th Annual. 2001 IEEE International
Conference_Location :
Orlando, FL
Print_ISBN :
0-7803-6587-9
DOI :
10.1109/RELPHY.2001.922918
