Entangleware Sequencer: A Control Platform for Atomic Physics Experiments

Abstract

Experimental quantum physics and computing platforms rely on sophisticated computer control and timing systems that must be deterministic. An exemplar is the sequence used to create a Bose-Einstein condensate at the University of Illinois, which involves 46,812 analog and digital transitions over 100 seconds with 20 ns timing precision and nanosecond timing drift. We present a control and sequencing platform, using industry-standard National Instruments hardware to generate the necessary digital and analog signals, that achieves this level of performance. The system uses a master 10 MHz reference clock that is conditioned to the Global Positioning Satellite constellation and leverages low-phase-noise clock distribution hardware for timing stability. A Python-based user front-end provides a flexible language to describe experimental procedures and easy-to-implement version control. A library of useful peripheral hardware that can be purchased as low-cost evaluation boards provides enhanced capabilities. We provide a GitHub repository containing example python sequences and libraries for peripheral devices as a resource for the community.

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