Stochastic multi-channel lock-in detection
Instrumentation and Detectors
2014-03-04 v1
Abstract
High-precision measurements benefit from lock-in detection of small signals. Here we discuss the extension of lock-in detection to many channels, using mutually orthogonal modulation waveforms, and show how the the choice of waveforms affects the information content of the signal. We also consider how well the detection scheme rejects noise, both random and correlated. We address the particular difficulty of rejecting a background drift that makes a reproducible offset in the output signal and we show how a systematic error can be avoided by changing the waveforms between runs and averaging over many runs. These advances made possible a recent measurement of the electron's electric dipole moment.
Cite
@article{arxiv.1307.4280,
title = {Stochastic multi-channel lock-in detection},
author = {J J Hudson and M R Tarbutt and B E Sauer and E A Hinds},
journal= {arXiv preprint arXiv:1307.4280},
year = {2014}
}
Comments
11 pages, 3 figures