Title :
Atomic Layer Engineered-Sealed Interface Local Oxidation (ALE-SILO). 0.30μm MOS Devices Isolation using a Vacuum Load-Lock Cluster Vertical Furnace
Author :
Deleonibus, S. ; Martin, F. ; Guegan, G. ; Lerme, M. ; Tedesco, S. ; Reimbold, G.
Author_Institution :
GRESSI-LETI (CEA-Technologies Avancées) - Dépt. de Microélectronique, CENG 17 Avenue des Martyrs, 38054 Grenoble Cedex 9 France
Abstract :
This paper will describe the characterization and electrical optimization of a high performance Atomic Layer Engineered Sealed Interface Local Oxidation (ALESILO) field isolation process steps. This process uses a vacuum load-lock equipped cluster vertical furnace (fig. 1). That allows perfectly controlled nitride/silicon interface sealing avoiding any extra RTN step[1] to achieve 100 nm range bird´s beak and 0.30μm design rules SILO field isolation. A good monitoring of NMOS and PMOS devices subthreshold characteristics as well as field devices behaviour is obtained by a controlled monolayer oxidation of silicon before nitride deposition. The surface preparation condition will perfectly control the high quality of 7 nm and 5 nm thick gate oxide.
Keywords :
Atomic layer deposition; Breakdown voltage; Clamps; Furnaces; Hafnium; MOS devices; Oxidation; Shape; Silicon; Thickness control;
Conference_Titel :
Solid State Device Research Conference, 1994. ESSDERC '94. 24th European
Conference_Location :
Edinburgh, Scotland
