CHANG-ES XXXVII. Effects of spectral aging on radio scale heights

TL;DR

This study investigates how spectral aging affects radio scale heights in galaxy halos, revealing that cosmic ray transport and electron cooling influence observed radio properties and correlate with galaxy characteristics.

Contribution

It provides new insights into the frequency dependence of radio scale heights and the role of cosmic ray transport in galaxy halos using multi-frequency radio data.

Findings

Mean scale-height ratio is 1.26, lower than expected from simple cosmic ray loss models.

Galaxies with galactic winds show flatter spectra and larger scale heights at low frequencies.

Radio spectral index correlates strongly with galaxy mass and moderately with SFR-to-mass surface density.

Abstract

Context. Cosmic rays and magnetic fields play an important role for the formation and evolution of galaxies. Radio continuum observations allows us to study them in the haloes of edge-on galaxies. Aims. We explore the frequency dependence of the radio scale height which depends on cosmic ray transport and electron cooling. We test the influence of fundamental galaxy properties, such as star-formation rate (SFR), mass and size. Methods. We used radio continuum data of 16 edge-on galaxies from the Continuum HAloes in Nearby Galaxies -- an EVLA Survey (CHANG-ES). We included maps from the LOw Frequency ARray at 144 MHz and from the Jansky Very Large Array at 3 GHz with 7" angular resolution. We extracted vertical intensity profiles within the effective radio radius and fitted beam-convolved double-exponential models to separate thin and thick discs. For the thick radio discs, we computed mean spectral indices and scale-height ratios between 144 MHz and 3 GHz. Results. We find a mean scale-height ratio of 1.26 \pm 0.16. This is much lower than what we would expect for either cosmic ray diffusion or advection if synchrotron and inverse Compton losses dominate for the electrons. There is a moderate positive correlation between the ratio and spectral index of the thick disc: galaxies with high ratios have flat radio spectra. The ratio does not depend on any other galaxy parameter. The radio spectrum of the thick disc, as indicated by the radio spectral index, steepens with total mass (strong correlation) and flattens with SFR-to-mass surface density (moderate correlation). Conclusions. Galaxies with galactic winds have flat radio continuum spectra and large scale heights at low frequencies. This shows effective transport of cosmic rays in such systems.