Effect of Mechanical Vibration on Patterning Characteristics in Synchrotron Radiation Lithography

Abstract: In order to improve pattern precision and overlay accuracy in synchrotron radiation (SR) X-ray lithography, it is required that a stepper be very stable mechanically and have a high positioning accuracy with regard to both the mask-to-wafer gap and the stage. It is important to clarify the effect of mechanical vibrations on patterning characteristics. We investigated the effect of mechanical vibrations on line-and-space patterns with dimensions of less than 0.2 µ m by carrying out exposure experime… Show more

“…For instance, it is reported that the amplitude of floor vibrations at KEK's accelerator test facility ATF2 project is approximately 50 mm, which is even larger than the vertical beam spot size expected at ATF2 (Masuzawa et al, 2006). In another report related to synchrotron radiation lithography, the quality of microstructures fabricated by the lithography beamline is greatly affected when the amplitude of the vibration is larger than a quarter of the minimum feature size (Fukuda et al, 1996).…”

Investigations of mechanical vibrations for beamlines at the Canadian Light Source

“…For instance, it is reported that the amplitude of floor vibrations at KEK's accelerator test facility ATF2 project is approximately 50 mm, which is even larger than the vertical beam spot size expected at ATF2 (Masuzawa et al, 2006). In another report related to synchrotron radiation lithography, the quality of microstructures fabricated by the lithography beamline is greatly affected when the amplitude of the vibration is larger than a quarter of the minimum feature size (Fukuda et al, 1996).…”

Investigations of mechanical vibrations for beamlines at the Canadian Light Source

Self-assembled nanocomposite structure of SiAu system formed by liquid phase epitaxy

Nanometer-scale Si/Au bilayer dots fabricated by self-assembly process through liquid phase epitaxy