|![[Search]](http://talks.cam.ac.uk/images/search.gif?1209136071)
|![[A-Z Index]](http://talks.cam.ac.uk/images/az.gif?1209136071)
|![[Contact]](http://talks.cam.ac.uk/images/contact.gif?1209136071)
||![[University of Cambridge]](http://talks.cam.ac.uk/images/identifier2.gif?1209136071){kind=small} |
COOKIES: By using this website you agree that we can place Google Analytics Cookies on your device for performance monitoring. | ![[Talks.cam]](http://talks.cam.ac.uk/images/talkslogosmall.gif?1209136071) |
University of Cambridge > Talks.cam > Institute of Astronomy Seminars > Tagging and Tracing Globular Cluster-Origin Stars from the Early Milky Way with Gaia
Tagging and Tracing Globular Cluster-Origin Stars from the Early Milky Way with GaiaAdd to your list(s) Download to your calendar using vCal
If you have a question about this talk, please contact Xander Byrne. Globular clusters (GCs) are sites of extremely efficient star formation, and recent studies suggest they significantly contributed to the early Milky Way’s stellar mass build-up. Although their role has since diminished, GCs’ impact on the Galaxy’s initial evolution can be traced today by identifying their most chemically unique stars—those with anomalous nitrogen and aluminum overabundances and oxygen depletion. While they are a perfect tracer of clusters, be it intact or fully dissolved, these high-[N/O], high-[Al/Fe] GC-origin stars are extremely rare within the current Galaxy. To address the scarcity of these unusual, valuable former GC members, we train a neural network (NN) to identify high-[N/O], high-[Al/Fe] stars using low-resolution Gaia BP/RP spectra. Our NN achieves a classification accuracy of approximately 99% and a false positive rate of around 7%, identifying 878 new candidates in the Galactic field. We validate our results with several physically-motivated sanity checks, showing, for example, that the incidence of selected stars in Galactic GCs is significantly higher than in the field. Moreover, we find that most of our GC-origin candidates reside in the inner Galaxy, having likely formed in the proto-Milky Way, consistent with previous research. The fraction of GC candidates in the field drops at a metallicity of [Fe/H]=-1, approximately coinciding with the completion of spin-up, i.e. the formation of the Galactic stellar disk. This talk is part of the Institute of Astronomy Seminars series. This talk is included in these lists:
Note that ex-directory lists are not shown. |
Other listsMicplustech Pembroke College Corporate Partnership Talks Isaac Newton Institute Seminar SeriesOther talksIntroductory Lunchtime Talk - Introduction to Algebraic Topology Title TBC Title TBA Smooth nonradial stationary 2d Euler flows with compact support. Cambridge RNA Club - IN PERSON Early Cancer Institute Seminar: Dr Calum Gabbutt, Imperial College London & the Institute of Cancer Research |
Sarah Kane / IoA
Wednesday 13 November 2024, 13:15-13:40