Micron-sized atom traps made from magneto-optical thin films


Abstract in English

We have produced magnetic patterns suitable for trapping and manipulating neutral atoms on a $1 mu$m length scale. The required patterns are made in Co/Pt thin films on a silicon substrate, using the heat from a focussed laser beam to induce controlled domain reversal. In this way we draw lines and paint shaped areas of reversed magnetization with sub-micron resolution. These structures produce magnetic microtraps above the surface that are suitable for holding rubidium atoms with trap frequencies as high as ~1 MHz.

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