Trapped Electrons in a linear Paul trap

Zijue Luo; Jae Eu; Qian Yu; Alberto M Alonso; Neha Yadav; Isabel Sacksteder; Shuqi Xu; Clemens Matthiesen; Xiaoxing Xia; Abhinav Parakh; Juergen Biener; Hartmut Haeffner; Boerge Hemmerling

Trapped Electrons in a linear Paul trap

POSTER

Abstract

Recent advancements in quantum computing have introduced trapped electrons as a potential qubit system. They have the potential of exhibiting long coherence times, akin to ions, but with the added advantage of faster gate operations. Furthermore, using electron spins as qubit states, state leakages are inherently eliminated due to the simplicity of the spins' two-level system. Being a novel system, challenges persist in trapping, controlling, and readout at both room and cryogenic temperatures. Here we report on our progress including successfully trapping electrons at room temperature in a linear Paul trap and we will give an update on our cryogenic system designed to read out the quantum state of a single electron.

Presenters

Zijue Luo

University of California, Riverside

Authors

Zijue Luo

University of California, Riverside
Jae Eu

University of California, Riverside
Qian Yu

University of California, Berkeley
Alberto M Alonso

University of California, Berkeley
Neha Yadav

University of California, Berkeley
Isabel Sacksteder

University of California, Berkeley
Shuqi Xu

UC Berkeley
Clemens Matthiesen

University of California, Berkeley
Xiaoxing Xia

Lawrence Livermore National Lab, Lawrence Livermore National Laboratory, Lawrence Livermore National Laboratories
Abhinav Parakh

Lawrence Livermore National Laboratory, Lawrence Livermore National Laboratories
Juergen Biener

Lawrence Livermore National Lab, Lawrence Livermore National Laboratory, Lawrence Livermore National Laboratories
Hartmut Haeffner

University of California, Berkeley, University of California Berkeley, and Lawrence Berkeley National Laboratory
Boerge Hemmerling

University of California, Riverside