Abstract
The control of large-scale quantum information processors based on arrays of trapped ions requires a means to route and focus multiple laser beams to each of many trapping sites in parallel. Here, we combine arrays of fibres, 3D laser-written waveguides and diffractive microlenses to demonstrate the principle of a micro-optic interconnect suited to this task. The module is intended for use with an ion microtrap of 3D electrode geometry. It guides ten independent laser beams with unique trajectories to illuminate a pair of spatially separated target points. Three blue and two infrared beams converge to overlap precisely at each desired position. Typical relative crosstalk intensities in the blue are 3.6 × 10−3 and the average insertion loss across all channels is 8 dB. The module occupies ∼104 times less volume than a conventional bulk-optic equivalent and is suited to different ion species.
Highlights
Exquisite manipulation of light is essential for the advancement of technologies reliant on the quantum properties of atomic particles [1]
The control of large-scale quantum information processors based on arrays of trapped ions requires a means to route and focus multiple laser beams to each of many trapping sites in parallel
A system of laser beams focused by bulk optics is not a scalable means to optically address an array of trapping zones
Summary
Original content from this work may be used under the terms of the Creative Commons Attribution 4.0 licence. Any further distribution of this work must maintain attribution to the author(s) and the title of the work, journal citation and DOI. Matthew L Day1,2,3,5 , Kaushal Choonee2, Zachary Chaboyer4, Simon Gross4, Michael J Withford4, Alastair G Sinclair2,∗ and Graham D Marshall1 Keywords: diffractive microlenses, laser-written waveguides, ion microtrap, micro-optics
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