Publications

360-degree quantum tomography of a qudit

Abstract

Quantum information processing consists of three components each with a respective tomography technique: preparation/state, evolution/process, and measurement/detector. Previous works have diagnosed a single component individually yielding an estimated density matrix, process-matrix, or POVM, which is compared to a corresponding target. However, all three types of tomography are interrelated, and accounting for only one implies that the estimator produced suffers from systematic errors. Other techniques exist to quantify the average error rates of a single part, eg randomized benchmarking, but fail to give information on the type of error. One goal of quantum tomography is to produce a reliable estimate to diagnose sources of errors. To study this we model a cold-atom testbed-the coupled electron-nuclear spins of the 16-dimensional ground manifold of Cs, initialized by optical pumping, controlled by …

Date
2015
Authors
Charles Baldwin, Amir Kalev, Hector Martinez, Nathan Lysne, Poul Jessen, Ivan Deutsch
Journal
APS Division of Atomic, Molecular and Optical Physics Meeting Abstracts
Volume
2015
Pages
T6. 007