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2667673 
Journal Article 
Electrostatic clamping with an EUVL mask chuck: Particle issues 
Kalkowski, G; Zeuske, JR; Risse, S; Mueller, S; Peschel, T; Rohde, M 
2011 
Microelectronic Engineering
ISSN: 0167-9317 
88 
1986-1991 
WOS:000293663400086 
Particle and defect issues related to electrostatic chucking with an ultra-planar, pin-structured mask chuck for EUVL application were addressed. By mapping particles/defects on the backside of 8 inch Si-wafers before and after chucking, particle transport from the chuck to the wafer was studied at application relevant electrostatic forces. Particles were detected by analysis of stray light intensities on the wafer side. Investigations were performed under ambient conditions at high chucking voltages on a bipolar chuck. Particle transport from the chuck surface to the wafer surface was mapped and found to concentrate at the pin sites. Successively lower particle counts with increasing number of chucked wafers were observed, indicating a "cleaning effect" on the chuck's surface induced by the electrostatic chucking procedure. No influence of electric field direction (polarity) on particle count was discernable. (C) 2011 Elsevier B.V. All rights reserved. 
Electrostatic chuck; Pin chuck; Particles; EUVL; Mask; e-Beam