EIT intensity correlation power broadening in a buffer gas

Aojie Zheng; Alaina Green; Michael Crescimanno; Shannon O'Leary

arXiv:1501.00031·physics.atom-ph·March 28, 2016

EIT intensity correlation power broadening in a buffer gas

Aojie Zheng, Alaina Green, Michael Crescimanno, Shannon O'Leary

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TL;DR

This paper investigates how buffer gas pressure and magnetic field gradients influence power broadening in EIT noise correlation spectroscopy, which is promising for high-resolution optical magnetometry and clocks.

Contribution

It provides new insights into the effects of buffer gas and magnetic field gradients on EIT noise correlation resonance broadening.

Findings

01

Buffer gas pressure affects EIT resonance linewidths.

02

Magnetic field gradients contribute to power broadening.

03

Results inform optimization of EIT-based sensors.

Abstract

EIT noise correlation spectroscopy holds promise as a simple, robust method for performing high resolution spectroscopy used in optical magnetometry and clocks. Of relevance to these applications, we report here on the role of buffer gas pressure and magnetic field gradients on power broadening of Zeeman EIT noise correlation resonances.

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Taxonomy

TopicsSpectroscopy and Quantum Chemical Studies · Atomic and Subatomic Physics Research · Quantum optics and atomic interactions