Kinematics and chemical properties of the Galactic stellar populations. The HARPS FGK dwarfs sample

TL;DR

This study examines the chemical and kinematic properties of about 850 FGK dwarf stars in the solar neighborhood, revealing insights into the formation and evolution of Galactic stellar populations, especially the thin disk, thick disk, and high-alpha metal-rich stars.

Contribution

It provides a detailed chemical and kinematic analysis of local stars, identifying gradients and properties that shed light on Galactic formation processes, including the role of radial migration.

Findings

Negative velocity gradient for thin disk stars with [Fe/H]

Steep positive velocity gradient for thick disk and hamr stars

Properties of hamr stars suggest inner Galaxy origin

Abstract

(Abridged) We analyze chemical and kinematical properties of about 850 FGK solar neighborhood long-lived dwarfs observed with the HARPS high-resolution spectrograph. The stars in the sample have logg > 4 dex, 5000 < Teff < 6500 K, and -1.39 < [Fe/H] < 0.55 dex. We apply a purely chemical analysis approach based on the [alpha/Fe] vs. [Fe/H] plot to separate Galactic stellar populations into the thin disk, thick disk and high-alpha metal-rich (hamr). Our analysis shows a negative gradient of the rotational velocity of the thin disk stars with [Fe/H] (-17 km s^-1 dex^-1), and a steep positive gradient for both the thick disk and hamr stars with the same magnitude of about +42 km s^-1 dex^-1. For the thin disk stars we observed no correlation between orbital eccentricities and metallicity, but observed a steep negative gradient for the thick disk and hamr stars with practically the same magnitude (about -0.18 dex^-1). Our results suggest that radial migration played an important role in the formation and evolution of the thin disk. For the thick disk stars it is not possible to reach a firm conclusion about their origin. Based on the eccentricity distribution of the thick disk stars only their accretion origin can be ruled out, and the heating and migration scenario could explain the positive steep gradient of V_phi with [Fe/H]. Analyzing the hamr stellar population we found that they share properties of both the thin and thick disk population. A comparison of the properties of the hamr stars with that of the subsample of stars from the N-body/SPH simulation using radial migration suggest that they may have originated from the inner Galaxy. Further detailed investigations would help to clarify their exact nature and origin.