Litcius/Paper detail

Global Microbarom Patterns: A First Confirmation of the Theory for Source and Propagation

Marine De Carlo, Patrick Hupe, Alexis Le Pichon, Lars Ceranna, Fabrice Ardhuin

2020Geophysical Research Letters31 citationsDOIOpen Access PDF

Abstract

Abstract Microbarom signals are generated by wind waves at the ocean surface and propagate all around the globe through the stratosphere and ionosphere. Microbaroms dominate the coherent infrasound ambient noise measured worldwide, with a peak around 0.2 Hz. Monitoring these signals allows characterizing the source activity and probing the properties of their propagation medium, the middle atmosphere. Here, we show the first quantitative validation of global microbarom modeling based on ocean wave models, a new source model and atmospheric attenuation. For evaluating these parameters' impact, we compare the modeling results with a global reference database of microbaroms detected by the infrasound International Monitoring System over 7 years. This study demonstrates that the new source model improves the prediction rate of observations by around 20% points against previous models. The performance is enhanced when the new model is combined with a wind‐dependent attenuation and an ocean wave model that includes coastal reflection.

Topics & Concepts

AttenuationInfrasoundAtmosphere (unit)StratosphereMeteorologyGeologyWind waveEnvironmental scienceWave propagationReflection (computer programming)Atmospheric modelRemote sensingAtmospheric sciencesAcousticsPhysicsComputer scienceOpticsOceanographyProgramming languageSeismic Waves and AnalysisEarthquake Detection and AnalysisSeismology and Earthquake Studies