Title :
New mechanical reliability issues for deep-submicron devices
Author :
Miura, Hideo ; Ikeda, Shuji
Author_Institution :
Mech. Eng. Res. Lab., Hitachi Ltd., Japan
Abstract :
In this paper, we discuss new reliability issues for manufacturing deep-submicron semiconductor devices; mechanical reliability issues which cause serious damages in semiconductor devices. Typical damages are dislocations in silicon substrates, delamination or cracking of thin films, and deterioration of electronic characteristics of devices. Mechanical stress develops in device structures due to not only mismatches in thermal expansion coefficients among thin film materials but also intrinsic stress of thin films such as poly-silicon and silicides. Fine patterning by dry etching makes sharp edges which also cause high stress due to stress concentration. The main manufacturing processes at which stress mainly develops are isolation, gate formation, and interconnect formation. We review each process for highly reliable manufacturing. Finally we mention the effect of residual stress in transistor areas on the shift in the electronic characteristic of MOS transistors
Keywords :
internal stresses; semiconductor device reliability; MOS transistor; cracking; damage; deep-submicron semiconductor device; delamination; dislocation; dry etching; electronic characteristics; gate formation; interconnect formation; intrinsic stress; isolation; manufacturing; mechanical reliability; mechanical stress; polysilicon; residual stress; silicide; silicon substrate; thermal expansion coefficient mismatch; thin film; MOSFETs; Manufacturing processes; Pulp manufacturing; Residual stresses; Semiconductor device manufacture; Semiconductor device reliability; Semiconductor devices; Semiconductor thin films; Thermal stresses; Thin film devices;
Conference_Titel :
Semiconductor Manufacturing Technology Workshop, 1998
Conference_Location :
Hsinchu
Print_ISBN :
0-7803-5179-7
DOI :
10.1109/SMTW.1998.722679
