Scanning near-field optical lithography

## Abstract The fabrication of high‐resolution nanostructures in both poly(__p__‐phenylene vinylene), PPV, and a crosslinkable derivative of poly(9,9′‐dioctylfluorene), F8, using scanning near‐field optical lithography, is reported. The ability to draw complex, reproducible structures with 65000 pi

## Abstract This manuscript reviews the principles and recent advances of scanning near‐field optical microscopy based on tip‐induced field enhancement. These scanning microscopes utilize minute probes to locally enhance an electromagnetic field through a complex interplay between surface plasmon e

## Abstract A set‐up able to achieve a magnetic characterization at a sub‐micron scale will be presented. Together with topographic and optical images, it is possible to plot local hysteresis loops (LHL) and magneto‐optical differential susceptibility (MODS) using a transverse MOKE‐like configurati

like a PMC surface for this direction of observation. It can also be noted that the fields are zero for ϭ /2, except when ϭ 0 and ϭ . Thus, the field will propagate along the surface in the direction of the strips, that is, in the direction for which the surface behaves like a hard surface. This cor