Abstract
We propose the redistribution-reconfiguration (red-rec) algorithm to prepare large configurations of atoms using programmable arrays of optical traps. Red-rec exploits simple heuristics and exact subroutines to solve atom reconfiguration problems on grids. It admits a fast and efficient implementation suitable for real-time operation. We numerically quantify its performance using realistic physical parameters and operational constraints, in both the absence and presence of loss. Red-rec enables assembling large configurations of atoms with high mean success probability. Fast preparation times are achieved by harnessing parallel control operations that actuate multiple traps simultaneously. Faster preparation times are achieved by rejecting configurations of atoms containing fewer atoms than a given threshold. However, the number of traps required to prepare a compact-centered configuration of atoms on a grid with a probability of 0.5 scales as the 3/2 power of the number of desired atoms. This finding highlights some of the challenges associated with scaling up configurations of atoms beyond tens of thousands of atoms.
© Cimring, B., El Sabeh, R., Bacvanski, M., Maaz, S., El Hajj, I., Nishimura, N., Mouawad, A. E., & Cooper-Roy, A. (2023). Efficient algorithms to solve atom reconfiguration problems. I. Redistribution-reconfiguration algorithm. Physical Review. A/Physical Review, A, 108(2). https://doi.org/10.1103/physreva.108.023107