Polarization of electric-field noise near metallic surfaces

Philipp Schindler, Dylan J Gorman, Nikos Daniilidis, Hartmut Häffner

Type: Article

Publication Date: 2015-07-16

Citations: 11

DOI: https://doi.org/10.1103/physreva.92.013414

Abstract

Electric-field noise in proximity to metallic surfaces is a poorly understood phenomenon that appears in different areas of physics. Trapped ion quantum information processors are particularly susceptible to this noise, leading to motional decoherence, which ultimately limits the fidelity of quantum operations. On the other hand, trapped ions present an ideal tool to study this effect, opening new possibilities in surface science. In this work we analyze and measure the polarization of the noise field in a microfabricated ion trap for various noise sources. We find that technical noise sources and noise emanating directly from the surface give rise to different degrees of polarization, which allows us to differentiate between the two noise sources. Based on this we demonstrate a method to infer the magnitude of surface noise in the presence of technical noise.

Locations

Physical Review A - View - PDF
arXiv (Cornell University) - View - PDF

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