Searching for axion stars with a global network of optical atomic magnetometers

C. A. Palm; A. Penaflor; A. Guest; Derek Jackson Kimball

Searching for axion stars with a global network of optical atomic magnetometers

POSTER

Abstract

The GNOME collaboration (the Global Network of Optical Magnetometers to search for Exotic physics) is using a worldwide network of optical atomic magnetometers to search for correlated transient signals heralding new physics [Pospelov et al., Phys. Rev. Lett. {\textbf{110}}, 021803 (2013)]. Potential search targets for the GNOME include compact dark-matter objects such as axion stars [Jackson Kimball et al., arxiv:1710.04323]. We discuss the particular implementation and characteristics of the Hayward GNOME magnetometer and analyze prospects for detecting a terrestrial encounter with an axion star by the GNOME.

^*Supported by NSF grant PHY-1707875.

Authors

C. A. Palm
- California State University - East Bay
A. Penaflor
- California State University - East Bay
A. Guest
- California State University - East Bay
Derek Jackson Kimball
- California State University - East Bay
- California State University, East Bay
- California State University East Bay