Title :
Scanning Phase-Mask DUV Inscription of Short-Period Large-Area Photoresist Gratings
Author :
Huster, Jens ; Müller, Jost ; Renner, Hagen ; Brinkmeyer, Ernst
Author_Institution :
Dept. of Opt. Commun. Technol., Tech. Univ. Hamburg-Harburg, Hamburg, Germany
Abstract :
We present an approach for periodical structuring of large-area photoresist gratings with short periods based on a deep-ultraviolet (DUV) lithography process. Our procedure of inscribing gratings on planar surfaces using a scanning phase-mask interferometer and including a technique for suppressing the disturbing influence of the zeroth-order diffraction is demonstrated and compared to well-established methods. Applying this approach, large-area, centimeter-scale chirped photoresist gratings with a central period of 225 nm, a chirp rate of 0.5 nm/cm and a duty cycle of 50% have been fabricated on planar silicon chips.
Keywords :
diffraction gratings; interferometers; photoresists; ultraviolet lithography; Si; central period; chirp rate; chirped photoresist gratings; deep-ultraviolet lithography; duty cycle; periodical structuring; planar silicon chips; planar surfaces; scanning phase-mask DUV inscription; scanning phase-mask interferometer; short periods; zeroth-order diffraction; Chirp; Diffraction; Diffraction gratings; Gratings; Optical surface waves; Resists; Silicon; Bragg gratings; interferometric lithography; nanochannel array; nanopatterning; optical diffraction; silicon on insulator technology (SOI);
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2011.2161863
