Title :
Modeling of stress-dependent wet etch characteristic for P-SOG STI process
Author :
Min, Jeong-Guk ; Rha, Sang-Ho ; Kim, Tai-Kyung ; Kwon, Ui-Hui ; Goo, Ju-Seon ; Park, Young-Kwan ; Kong, Jeong-Taek
Author_Institution :
CAE Team, Samsung Electron. Co. Ltd., Gyeonggi
Abstract :
Recently, spin-on-glass (SOG) oxide has been used as an important technology to overcome the gap-filling limit of conventional high density plasma (HDP) oxide in shallow trench isolation (STI) process. One of them, a novel polysilazane spin-on-glass (P-SOG) film shows a complex mechanical behavior during an annealing process and an abnormal etch loading effect in the wet process. These unique properties of P-SOG film give many opportunities to stress engineering. This paper proposed the simulation methodology to predict mechanical stresses in STI process by modeling the volumetric shrinkage phenomena of P-SOG and wet etch rate which is dependent on hydrostatic pressure. By interfacing a commercial FEM code, ABAQUS and in-house topography simulator, each of which has a portion of necessary models regarding P-SOG, we can predict the mechanical stress distribution on the various STI structures with real process profiles
Keywords :
annealing; etching; finite element analysis; isolation technology; polymers; semiconductor process modelling; shrinkage; ABAQUS; FEM code; P-SOG film; P-SOG-STI process; annealing process; high density plasma oxide; hydrostatic pressure; mechanical behavior; mechanical stress distribution; polysilazane-spin-on-glass shallow trench isolation process; stress engineering; stress-dependent wet etch characteristic; volumetric shrinkage; Capacitive sensors; Equations; Hysteresis; Plasma applications; Plasma density; Predictive models; Surfaces; Tensile stress; Thermal stresses; Wet etching;
Conference_Titel :
Simulation of Semiconductor Processes and Devices, 2006 International Conference on
Conference_Location :
Monterey, CA
Print_ISBN :
1-4244-0404-5
DOI :
10.1109/SISPAD.2006.282885
