Implications of the kinematical structure of circumnuclear star-forming regions on their derived properties

TL;DR

This study investigates the kinematic structures of circumnuclear star-forming regions in nearby galaxies using spectroscopy, revealing complex gas motions and their impact on derived properties like luminosity and velocity dispersion.

Contribution

It provides a detailed analysis of the gas and stellar kinematics in CNSFRs, highlighting the presence of multiple components and their influence on the L-sigma relation, with implications for understanding star formation environments.

Findings

Multiple kinematic components are present in CNSFRs.

The L-sigma relation shows increased scatter, reducible with evolutionary corrections.

Narrow and broad emission line components have distinct velocity dispersions and flux ratios.

Abstract

[Abbreviated] We review the results of high dispersion spectroscopy of 17 circumnuclear starforming regions (CNSFRs) in 3 nearby early spiral galaxies, NGC2903, NGC3310 and NGC3351. We find that single Gaussian fitting to the H$\beta$ and [OIII]5007A line profiles results in velocity dispersions around 32km/s and 52km/s, respectively, while the IR CaII triplet cross-correlation technique provides stellar velocity dispersion values close to 50km/s. Even though multiple kinematical components are present, the relation between gas velocity dispersion and Balmer emission line luminosity (L-sigma relation) reproduces the correlation for disk giant HII regions albeit with a larger scatter. The scatter in the L-sigma relation is considerably reduced when theoretical evolutionary corrections are applied suggesting that an age range is present in the sample of CNSFRs. To analyse the observed complex profiles, we performed multiple Gaussian component fits to the Hbeta and [OIII]?5007A lines obtaining optimal fits with two Gaussians of different width. These best fits indicate that the narrower component has average velocity dispersion close to 23km/s while the broader component shows average values in the range 50-60km/s for both lines, close to the observed stellar velocity dispersions. The fluxes of the broad and narrow Hbeta components are similar. This is not the case for [OIII]5007A for which the broad components have higher fluxes than the narrow ones, thus producing a clear segregation in their [OIII]/Hbeta ratios. We suggest a possible scenario for understanding the behaviour of CNSFRs in the L-sigma and sigma_gas-sigma_star diagrams involving an inner gaseous disk responsible for the narrow component of the emission lines.