Title :
In situ cleaning of LPCVD furnaces using a thermal NF3 etch process
Author :
Timmermans, Eric ; Teepen, Maarten ; Huussen, Frank ; Wilhelm, Rudi ; Johnson, Andrew D. ; Pearce, R.V.
Author_Institution :
ASM International N.V, Bilthoven, Netherlands
Abstract :
Summary form only given. This paper describes an in situ clean process for the ASM A400 (200 mm) and A412 (300 mm) vertical LPCVD batch furnaces. The clean is based upon a thermal NF3 etch process. The furnace is maintained near the deposition temperature (500 to 600 °C) whilst introducing a NF3/N2 gas mixture. NF3 thermally decomposes at these temperatures, generating fluorine atoms that react with the CVD residue. For development purposes, the clean process was monitored using a quadrupole mass spectrometer QMS and Fourier transform infrared (FTIR) spectroscopy. The time evolution of the NF3 and SiF4 concentration was used to determine when the clean was complete and to optimize the etch process with respect to etch rates and selectivity. QMS and FTIR were also used to measure volumetric PFC emissions. Methods for monitoring the process in production are also described.
Keywords :
Fourier transform spectra; chemical vapour deposition; etching; infrared spectra; nitrogen compounds; pyrolysis; quartz; semiconductor device manufacture; surface cleaning; 500 to 600 degC; FTIR spectra; Fourier transform infrared spectroscopy; NF3 thermal etch; NF3-N2; NF3/N2 gas mixture; QMS; Si; Si3N4; Si3N4 film; SiO2; etch rate; etch selectivity; in situ cleaning; low pressure chemical vapor deposition; poly-Si film; quadrupole mass spectrometry; quartz-vacuum chamber; semiconductor manufacture; thermal decomposition; vertical LPCVD batch furnaces; Atomic layer deposition; Atomic measurements; Cleaning; Etching; Furnaces; Infrared spectra; Mass spectroscopy; Monitoring; Noise measurement; Temperature;
Conference_Titel :
Advanced Thermal Processing of Semiconductors, 2002. RTP 2002. 10th IEEE International Conference of
Print_ISBN :
0-7803-7465-7
DOI :
10.1109/RTP.2002.1039461
