Abstract
Nanoscale periodic patterning on insulating materials using focused-ion beam (FIB) is challenging because of charging effect, which causes pattern distortion and resolution degradation. In this paper, the authors used a charging suppression scheme using electron conducting polymer for the implementation of FIB patterned dielectric subwavelength grating (SWG) reflector. Prior to the FIB patterning, the authors numerically designed the optimal structure and the fabrication tolerance for all grating parameters (period, grating thickness, fill-factor, and low refractive index layer thickness) using the rigorous-coupled wave analysis computation. Then, the authors performed the FIB patterning on the dielectric SWG reflector spin-coated with electron conducting polymer for the anticharging purpose. They also performed similar patterning using thin conductive film anticharging scheme (30 nm Cr coating) for comparison. Their results show that the electron conducting polymer anticharging scheme effectively suppressing the charging effect during the FIB patterning of dielectric SWG reflector. The fabricated grating exhibited nanoscale precision, high uniformity and contrast, constant patterning, and complied with fabrication tolerance for all grating parameters across the entire patterned area. Utilization of electron conducting polymer leads to a simpler anticharging scheme with high precision and uniformity for FIB patterning on insulator materials.
Highlights
High reflectivity and broadband mirror with polarization selectivity can be achieved by utilizing subwavelength grating (SWG)
We presented a charging suppression scheme for focus ion beam (FIB) patterning using the electron conducting polymer for the first time
By fabricating dielectric SWG reflector, we demonstrated the effectiveness of the electron conducting polymer as an anticharging scheme for nanoscale FIB
Summary
High reflectivity and broadband mirror with polarization selectivity can be achieved by utilizing subwavelength grating (SWG). We present here a simpler charging suppression scheme in FIB fabrication of visible dielectric SWG reflector using electron conducting polymer. The electron conducting polymer scheme has been recently used for charging suppression in EBL, but has not been demonstrated for FIB yet. In this scheme, we spin-coated the electron conducting polymer. We compared the FIB patterning using the electron conducting polymer scheme with the thin conductive film coating scheme. Using the electron conducting polymer scheme, we obtained nanoscale precision with high uniformity and sharp contrast for the FIB patterning of visible dielectric SWG reflector. We demonstrate that the electron conducting polymer scheme can provide straightforward charging control for FIB patterning, eliminating complicated processing steps or equipment modification
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