Université de GenèveDépartement de Physique ThéoriqueCAP Genève

Magnetic fields

Astronomers observe the presence of large-scale magnetic fields in all cosmic structures. Typically the fields are of microgauss strength, while their coherence length is roughly given by the size of the object - galaxies, clusters, filaments. Even a large fraction of the intergalactic medium appears to be permeated by weak magnetic fields. Although the observational evidence for cosmic magnetic fields has improved a lot, their ultimate origin is still poorly understood.
Some astrophysical processes are known to amplify weak seed fields to the observed configurations, however these are typically limited to galaxies and do not necessarily work on scales of clusters and outside of structures. Mechanisms that create seed magnetic fields are also known, but they all seem to have their problems in either generating the required field strength or the observed large coherence lengths.

The most successful explanations for the seed fields so far rely on physics beyond the standard model that lead to amplification of electromagnetic fluctuations during inflation, or the generation of magnetic fields during phase transitions in the early Universe. However, such mechanisms are tightly constrained by the fact that some of side effects are not observed. This leaves us only with the certainty that magnetic fields are generated by nonlinear plasma evolution around decoupling of the Cosmic Microwave Background photons, although these turn out to be too weak to account for the observed fields.

Members of our group are investigating mechanisms of magnetic field generation in the early universe and in the recombination era, the evolution of magnetic fields through the history of the Universe and their impact on structure formation.

Recent publications and presentations on this topic
Date: 28. March 2014
Members involved: Ruth Durrer
Topics: Cosmic microwave background, Magnetic fields
Type: Publication
Date: 1. May 2013
Members involved: Matteo Biagetti, Enrico Morgante, Hideki Perrier, Antonio Riotto
Topics: Inflation, Magnetic fields
Type: Publication
Date: 28. March 2013
Members involved: Ruth Durrer
Topics: Magnetic fields
Type: Publication
Date: 31. August 2012
Members involved: Lukas Hollenstein, Rajeev Kumar Jain
Topics: Magnetic fields
Type: Publication
Date: 17. July 2012
Members involved: Rajeev Kumar Jain
Topics: Inflation, Magnetic fields, Non-Gaussianity
Type: Publication
Date: 23. May 2012
Members involved: Julian Adamek
Topics: Magnetic fields, Inflation
Type: Presentation
Date: 6. March 2012
Members involved: Lukas Hollenstein, Rajeev Kumar Jain
Topics: Magnetic fields, Inflation
Type: Publication
Date: 25. January 2012
Members involved: Lukas Hollenstein
Topics: Magnetic fields
Type: Presentation
Date: 16. December 2011
Members involved: Ruth Durrer
Topics: Magnetic fields, Inflation
Type: Publication
Date: 16. December 2011
Members involved: Ruth Durrer
Topics: Magnetic fields, Inflation
Type: Publication

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Département de Physique Théorique
Université de Genève
24, quai Ernest Ansermet
1211 Genève 4
Switzerland
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