Title :
Metal contamination monitoring in ion implantation technology
Author :
Colelli, Elena ; Galbiati, Amos ; Caputo, Daniele ; Polignano, M. Luisa ; Soncini, Valter ; Salva, Gianluca
Author_Institution :
ST Microelectron., Agrate Brianza, Italy
Abstract :
In this paper we report the main results obtained through systematic monitoring of metal contamination level on high current ion implanters. The effects of metal contamination on semiconductor devices include oxide degradation, increased leakage current of p-n junctions and reduced minority carrier lifetime. The Surface Photo Voltage (SPV) technique is employed to quantify iron contamination on monitor wafers. The introduction of contamination control charts (iron concentration and diffusion length parameters) for ion implanters is effective in determining some important causes of contamination increase on implanted monitors: silicon-coating progressive erosion of the machine loading disk and specific periodic maintenance performed on the equipment. The results of these analyses allowed us to establish the equipment´s disk replacement frequency and to determine the correct requalification procedure of machines after maintenance.
Keywords :
carrier lifetime; condition monitoring; deep level transient spectroscopy; integrated circuit measurement; ion implantation; maintenance engineering; minority carriers; process monitoring; surface contamination; surface photovoltage; contamination control charts; diffusion length parameters; disk replacement frequency; high current ion implanters; ion implantation technology; iron contamination; metal contamination level; metal contamination monitoring; minority carrier lifetime; oxide degradation; p-n junction leakage current; periodic maintenance; requalification procedure; semiconductor devices; silicon-coating progressive erosion; surface photovoltage technique; systematic monitoring; Charge carrier lifetime; Degradation; Ion implantation; Iron; Leakage current; Monitoring; P-n junctions; Semiconductor devices; Surface contamination; Voltage;
Conference_Titel :
Plasma- and Process-Induced Damage, 2003 8th International Symposium
Print_ISBN :
0-7803-7747-8
DOI :
10.1109/PPID.2003.1200923
