论文信息 - Nanometer-level stitching in raster-scanning electron-beam lithography using spatial-phase locking

Nanometer-level stitching in raster-scanning electron-beam lithography using spatial-phase locking

Pattern-placement inaccuracy is a persistent problem in scanning-electron-beam lithography (SEBL) despite the high-resolution obtained in SEBL systems. Pattern-placement errors stem from a variety of environmental and system variations; however, the fundamental issue is the open-loop nature of the system, i.e., the beam location on the substrate is not monitored during exposure. In contrast, spatial-phase-locked electron-beam lithography (SPLEBL) provides closed-loop control of the beam position by monitoring the signal from a fiducial grid on the substrate. By detecting the spatial phase of the grid signal one can estimate the beam position within a small fraction of the grid period. We have implemented SPLEBL by adding real-time signal processing, feedback control, and raster-scan exposure capability to an inexpensive SEBL system. Using a 246 nm period, electron-transparent fiducial grid that covers the entire substrate, we have exposed patterns that exhibit global placement accuracy with respect to the...

Feng Zhang | Henry I. Smith | Jeffrey T. Hastings | J. Hastings | Feng Zhang

[1] Michael H. Lim,et al. Optical waveguides with apodized sidewall gratings via spatial-phase-locked electron-beam lithography , 2002 .

[2] Max Born,et al. Principles of optics - electromagnetic theory of propagation, interference and diffraction of light (7. ed.) , 1999 .

[3] M. Born. Principles of Optics : Electromagnetic theory of propagation , 1970 .

[4] Mark A. Finlayson,et al. Two-dimensional spatial-phase-locked electron-beam lithography via sparse sampling , 2000 .

[5] Frank E. Abboud,et al. Electrodynamics of fast beam blankers , 1993 .

[6] Mark L. Schattenburg,et al. Analysis of distortion in interferometric lithography , 1996 .

[7] G. Pati,et al. Image metrology and system controls for scanning beam interference lithography , 2001 .

[8] Chong-Cheng Fu,et al. A multiple exposure strategy for reducing butting errors in a raster‐scanned electron‐beam exposure system , 1988 .

[9] Henry I. Smith,et al. Performance of the Raith 150 electron-beam lithography system , 2001 .

[10] Erik H. Anderson,et al. Spatial‐phase‐locked electron‐beam lithography: Initial test results , 1993 .

[11] Jacques Albert,et al. Comparison of fiber Bragg grating dispersion-compensators made with holographic and e-beam written phase masks , 1999 .