Publication
A different approach in microcolumn design is presented, aiming at a large number of pixels at minimal probe size for the deflected beam. An optimization routine resulted in a seven times magnifying column featuring a more than 7×7 mm2 scan field at 40 mm working distance. Simulations for 1 keV electrons from a field emission source predict an increase in beam size from 85 nm on axis up to only about 200 nm for a beam deflected 3 mm off axis. Within a 1 mm scan field this microcolumn could address over 100 Mpixels of less than 100 nm in size. Tests of this design using the 130 nm electron probe of a scanning electron microscope as the electron source resulted in a beam size of ~930 nm on axis up to ~1000 nm for a beam deflected 3 mm off axis.
Fabrizio Carbone, Giovanni Maria Vanacore, Ivan Madan, Gabriele Berruto, Ido Kaminer, Simone Gargiulo, Luca Piazza, Francesco Barantani, Tom Theodorus Antonius Lummen
Andreas Mortensen, David Hernandez Escobar, Alejandra Inés Slagter, Sergio Perosanz Amarillo