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Axion-like relics: new constraints from old comagnetometer data

Itay M. Bloch, Yonit Hochberg, Eric Kuflik, Tomer Volansky

2020Journal of High Energy Physics79 citationsDOIOpen Access PDF

Abstract

A bstract The noble-alkali comagnetometer, developed in recent years, has been shown to be a very accurate measuring device of anomalous magnetic-like fields. An ultra-light relic axion-like particle can source an anomalous field that permeates space, allowing for its detection by comagnetometers. Here we derive new constraints on relic axion-like particles interaction with neutrons and electrons from old comagnetometer data. We show that the decade-old experimental data place the most stringent terrestrial constraints to date on ultra-light axion-like particles coupled to neutrons. The constraints are comparable to those from stellar cooling, providing a complementary probe. Future planned improvements of comagnetometer measurements through altered geometry, constituent content and data analysis techniques could enhance the sensitivity to axion-like relics coupled to nucleons or electrons by many orders of magnitude.

Topics & Concepts

PhysicsElectronParticle physicsNucleonField (mathematics)Nuclear physicsParticle (ecology)NeutronSensitivity (control systems)Content (measure theory)Statistical physicsComputational physicsTheoretical physicsCharacterization (materials science)Field theory (psychology)Elementary particleQuantum electrodynamicsHigh energyCharged particleEnergy (signal processing)Experimental dataDark Matter and Cosmic PhenomenaAtomic and Subatomic Physics ResearchComputational Physics and Python Applications
Axion-like relics: new constraints from old comagnetometer data | Litcius