A possible age-metallicity relation in the Galactic thick disk?

A sample of 229 nearby thick disk stars has been used to investigate the existence of an age-metallicity relation (AMR) in the Galactic thick disk. The results indicate that that there is indeed an age-metallicity relation present in the thick disk. By dividing the stellar sample into sub-groups, separated by 0.1 dex in metallicity, we show that the median age decreases by about 5-7 Gyr when going from [Fe/H]=-0.8 to [Fe/H]=-0.1. Combining our results with our newly published alpha-element trends for a local sample of thick disk stars, that show signatures from supernovae type Ia (SNIa), we can here draw the conclusion that the time-scale for the peak of the SNIa rate is of the order 3-4 Gyr in the thick disk. The tentative evidence for a thick disk AMR that we present here also has implications for the thick disk formation scenario; star-formation must have been an ongoing process for several billion years. This is further discussed here and appear to strengthen the hypothesis that the thick disk originates from a merger event with a companion galaxy that puffed up a pre-existing thin disk.