Title :
Investigation of the optics system carbonaceous contamination induced by chemically amplified resist outgassing under e-beam radiation
Author :
Mebiene-Engohang, A.-P. ; Pourteau, M.-L. ; Marusic, J.-C. ; Pain, L. ; David, S. ; Labau, S. ; Boussey, J.
Author_Institution :
STMicroelectron., Crolles, France
fDate :
June 30 2014-July 3 2014
Abstract :
The developing multi e-beam lithography tools face important challenges in controlling the contamination of the optics system due to the deposition of hydrocarbon layer induced by the resist outgassing under e-beam radiation and high-vacuum. In this work, we present an experimental methodology allowing the investigation of the specific silicon micromachined membranes (called mimics) carbonaceous contamination induced by resist outgassing under 5keV e-beam radiation by using a dedicated experimental setup designed in CEA-Leti. The Focus Ion Beam combined to Scanning Electron Microscopy (FIB-SEM) and X-ray Photoelectron Spectroscopy (XPS) characterization techniques were used to determine the contamination layer thickness and elementary composition, respectively. A first process-oriented conclusion from this work shows that the contamination layer growth depends on e-beam current density and induced precursor pressure in the vicinity of the mimics.
Keywords :
X-ray photoelectron spectra; carbon; electron beam lithography; elemental semiconductors; focused ion beam technology; outgassing; photoresists; scanning electron microscopy; silicon; surface contamination; C; FIB-SEM; Si; X-ray photoelectron spectroscopy; XPS characterization techniques; chemically amplified resist outgassing; combined focus ion beam-scanning electron microscopy; contamination layer growth; contamination layer thickness; e-beam current density; e-beam radiation; electron volt energy 5 keV; elementary composition; high-vacuum; hydrocarbon layer deposition; induced precursor pressure; mimics carbonaceous contamination; multie-beam lithography tools; optics system carbonaceous contamination; silicon micromachined membranes; Carbon; Contamination; Current density; MIMICs; Optics; Resists; Silicon; Chemically amplified resist; FIB-SEM; XPS; carbonaceous contamination; e-beam radiation; outgassing;
Conference_Titel :
Ph.D. Research in Microelectronics and Electronics (PRIME), 2014 10th Conference on
Conference_Location :
Grenoble
DOI :
10.1109/PRIME.2014.6872757
