Title :
Demagnification and Magnification Effects in One-Step Noncontact Pattern Transfer by Direct-Current Plasma Immersion Ion Implantation
Author :
Ji Luo ; Cheng, Samson H. S. ; Kwok, Dixon Tat Kun ; Cheng Xi Wang ; Li, L. ; Chu, Paul K.
Author_Institution :
Dept. of 702, Beihang Univ., Beijing, China
Abstract :
Complex patterns formed by an array of micrometer spots can be transferred onto a silicon wafer using a one-step noncontact pattern transfer method by dc plasma immersion ion implantation. The transferred images can be demagnified or magnified by placing a metal ring in contact with the metal mask (demagnification) or sample (magnification). Scanning electron microscopy reveals that the center to center distance between the imaged holes can be reduced from 300 to 245 μm, that is, center to center distance in the mask. The 2-D multiple-grid particle-in-cell simulation illustrates that the electric field between the metal mask and sample leads to the demagnification and magnification effects. This one-step and truly noncontact process that has potential applications in transferring pattern onto soft and flexible substrates is applicable to brittle nanostructures that may not survive etching.
Keywords :
aluminium; elemental semiconductors; plasma immersion ion implantation; scanning electron microscopy; semiconductor-metal boundaries; silicon; 2D multiple-grid particle-in-cell simulation; Si-Al; brittle nanostructures; center-to-center distance; demagnification; direct-current plasma immersion ion implantation; flexible substrates; imaged holes; magnification effects; metal mask; metal ring; micrometer spots; one-step noncontact pattern transfer; scanning electron microscopy; silicon wafer; size 300 mum to 245 mum; soft substrates; transferred images; Electric potential; Mathematical model; Metals; Plasma immersion ion implantation; Silicon; Substrates; Particle-in-cell (PIC) simulation; pattern transfer; plasma immersion ion implantation (PIII); plasma immersion ion implantation (PIII).;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2014.2363943
