We present an ion-lattice quantum processor based on a two-dimensional arrangement of linear surface traps. Our design features a tunable coupling between ions in adjacent lattice sites and a configurable ion-lattice connectivity, allowing one, e.g., to realize rectangular and triangular lattices with the same trap chip. We present detailed trap simulations of a simplest-instance ion array with 2×9 trapping sites and report on the fabrication of a prototype device in an industrial facility. The design and the employed fabrication processes are scalable to larger array sizes. We demonstrate trapping of ions in rectangular and triangular lattices and demonstrate transport of a 2×2 ion-lattice over one lattice period.
@article{arxiv.2003.08085,
title = {Two-dimensional linear trap array for quantum information processing},
author = {Philip C. Holz and Silke Auchter and Gerald Stocker and Marco Valentini and Kirill Lakhmanskiy and Clemens Rössler and Paul Stampfer and Sokratis Sgouridis and Elmar Aschauer and Yves Colombe and Rainer Blatt},
journal= {arXiv preprint arXiv:2003.08085},
year = {2020}
}