Continuous Variable Quantum Computing with Trapped Ions

Gabriel Mintzer; Jasmine Sinanan-Singh; Susanna Todaro; Kyle DeBry; Felix W Knollmann; Xiaoyang Shi; Jules M Stuart; Colin D Bruzewicz; Jeremy Sage; John Chiaverini; Isaac Chuang

Continuous Variable Quantum Computing with Trapped Ions

POSTER

Abstract

The standard approach to quantum computation uses qubits, which are well-described as a two-level system. An alternative approach is continuous-variable quantum computation (CVQC), which uses observables with a continuum of values such as the position and momentum of a particle. In this work, we use the motional modes of trapped ions as our continuous variable. CVQC has been explored in other physical platforms, such as superconducting qubits and photonic systems, but there remain open questions about the feasibility and implementation for trapped ions. We report progress simulating the motional coherence of CVQC operations implemented with electric fields. Further, we explore using composite sideband laser pulses, which provide a Jaynes-Cummings-like interaction, to read out information stored in the ion's bosonic modes. We present a computational framework for simulating CVQC operations in a realistic trapped-ion system with realistic noise sources, as well as preliminary experimental results implementing these operations on $^{88}Sr^+$ ions.

Presenters

Jasmine Sinanan-Singh

Massachusetts Institute of Technology, MIT, Research Laboratory for Electronics, MIT, Department of Physics

Authors

Gabriel Mintzer

Massachusetts Institute of Technology, MIT, Research Laboratory for Electronics, MIT
Jasmine Sinanan-Singh

Massachusetts Institute of Technology, MIT, Research Laboratory for Electronics, MIT, Department of Physics
Susanna Todaro

Massachusetts Institute of Technology, MIT, Research Laboratory for Electronics, Massachusetts Institute of Technology MI, University of Colorado Boulder; National Institute of Standards and Technology Boulder
Kyle DeBry

Massachusetts Institute of Technology, MIT, Research Laboratory for Electronics, Ohio State Univ - Columbus
Felix W Knollmann

Massachusetts Institute of Technology, MIT, Research Laboratory for Electronics, MIT, Department of Physics
Xiaoyang Shi

Massachusetts Institute of Technology, MIT, Research Laboratory for Electronics, University of California, Santa Barbara
Jules M Stuart

Massachusetts Institute of Technology, MIT, Research Laboratory for Electronics; MIT Lincoln Laboratory, Massachusetts Institute of Technology MIT
Colin D Bruzewicz

MIT Lincoln Lab, MIT Lincoln Laboratory
Jeremy Sage

IonQ
John Chiaverini

MIT Lincoln Lab, MIT Lincoln Laboratory, Massachusetts Institute of Technology, MIT, Research Laboratory for Electronics; MIT Lincoln Laboratory
Isaac Chuang

Massachusetts Institute of Technology, MIT, Research Laboratory for Electronics, MIT