The fratricide of alpha-Omega dynamos by their alpha-squared siblings

Context. Helically forced magneto-hydrodynamic shearing-sheet turbulence can support different large-scale dynamo modes, although the {\alpha} - {\Omega} mode is generally expected to dominate because it is the fastest growing. In an {\alpha} - {\Omega} dynamo, most of the field amplification is produced by the shear. As differential rotation is an ubiquitous source of shear in astrophysics, such dynamos are believed to be the source of most astrophysical large-scale magnetic fields. Aims. We study the stability of oscillatory migratory {\alpha} - {\Omega} type dynamos in turbulence simulations. Methods. We use shearing-sheet simulations of hydromagnetic turbulence that is helically forced at a wavenumber that is about three times larger than the lowest wavenumber in the domain so that both {\alpha} - {\Omega} and {\alpha}2 dynamo action is possible. Results. After initial dominance and saturation, the {\alpha} - {\Omega} mode is found to be destroyed by an orthogonal {\alpha}2 mode sustained by the helical turbulence alone. We show that there are at least two processes through which this transition can occur. Conclusions. The fratricide of {\alpha} - {\Omega} dynamos by its {\alpha}2 sibling is discussed in the context of grand minima of solar and stellar activity. However, the genesis of {\alpha} - {\Omega} dynamos from an {\alpha}2 dynamo has not yet been found.
Comment: 10 pages, 12 figures, 3 tables