Reliable transport through a microfabricated X-junction surface-electrode ion trap
Reliable transport through a microfabricated X-junction surface-electrode ion trap (PDF)
New Journal of Physics 15 (2013) 33004
Abstract
We report the design, fabrication and characterization of a microfabricated surface-electrode ion trap that supports controlled transport through the two-dimensional intersection of linear trapping zones arranged in a 90° cross. The trap is fabricated with very large scalable integration techniques which are compatible with scaling to a large quantum information processor. The shape of the radio-frequency electrodes is optimized with a genetic algorithm to reduce axial pseudopotential barriers and minimize ion heating during transport. Seventy-eight independent dc control electrodes enable fine control of the trapping potentials. We demonstrate reliable ion transport between junction legs and determine the rate of ion loss due to transport. Doppler-cooled ions survive more than ( 10^5 ) round-trip transits between junction legs without loss and more than 65 consecutive round trips without laser cooling.