Magnetic Monopole Noise
Ritika Dusad, Franziska K. K. Kirschner, Jesse C. Hoke, Benjamin, Roberts, Anna Eyal, Felix Flicker, Graeme M. Luke, Stephen J. Blundell, J., C. Seamus Davis

TL;DR
This paper reports the first direct detection of magnetic monopole noise in Dy$_2$Ti$_2$O$_7$ using a high-sensitivity SQUID spectrometer, confirming theoretical predictions about emergent magnetic monopoles and their flux noise signatures.
Contribution
It provides experimental evidence of magnetic monopole flux noise consistent with recent theoretical models, advancing understanding of monopole dynamics in spin ice materials.
Findings
Detection of flux noise signatures matching monopole plasma predictions
Observation of intense magnetization noise with characteristic frequency dependence
Evidence of strongly correlated magnetic charge motion
Abstract
Magnetic monopoles are hypothetical elementary particles exhibiting quantized magnetic charge and quantized magnetic flux . A classic proposal for detecting such magnetic charges is to measure the quantized jump in magnetic flux threading the loop of a superconducting quantum interference device (SQUID) when a monopole passes through it. Naturally, with the theoretical discovery that a plasma of emergent magnetic charges should exist in several lanthanide-pyrochlore magnetic insulators, including DyTiO, this SQUID technique was proposed for their direct detection. Experimentally, this has proven extremely challenging because of the high number density, and the generation-recombination (GR) fluctuations, of the monopole plasma. Recently, however, theoretical advances have allowed the spectral density of magnetic-flux noise…
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