We report the discovery of five new classical Cepheids located in the inner Galactic disc at longitude l similar or equal to -40 degrees in our IRSF/SIRIUS near-infrared (NIR) variability survey. The new Cepheids are unique in probing the kinematics and metallicity of young stars at the transition between the inner disc and the minor axis of the central bar, where they are expected to be less affected by its dynamical influence. This is also the first time that metallicity of Cepheids is estimated on the basis of medium-resolution (R similar to 3000) NIR spectra, and we validated our results with data in the literature, finding a minimal dependence on the adopted spectroscopic diagnostics. This result is very promising for using Cepheids as stellar proxy of the present-time chemical content of the obscured regions in the disc. We found that the three Cepheids within 8-10 kpc from us have metallicities consistent with the mean radial metallicity gradient, and kinematics consistent with the Galactic rotation curve. Instead, the closest (similar to 4 kpc)/farthest (similar to 12 kpc) Cepheids have significant negative/positive residuals, both in velocity and in iron content. We discuss the possibility that such residuals are related to large-scale dynamical instabilities, induced by the bar/spiral-arm pattern, but the current sample is too limited to reach firm conclusions.

First metallicity determination from near-infrared spectra for five obscured Cepheids discovered in the inner disc

Sormani M;
2019-01-01

Abstract

We report the discovery of five new classical Cepheids located in the inner Galactic disc at longitude l similar or equal to -40 degrees in our IRSF/SIRIUS near-infrared (NIR) variability survey. The new Cepheids are unique in probing the kinematics and metallicity of young stars at the transition between the inner disc and the minor axis of the central bar, where they are expected to be less affected by its dynamical influence. This is also the first time that metallicity of Cepheids is estimated on the basis of medium-resolution (R similar to 3000) NIR spectra, and we validated our results with data in the literature, finding a minimal dependence on the adopted spectroscopic diagnostics. This result is very promising for using Cepheids as stellar proxy of the present-time chemical content of the obscured regions in the disc. We found that the three Cepheids within 8-10 kpc from us have metallicities consistent with the mean radial metallicity gradient, and kinematics consistent with the Galactic rotation curve. Instead, the closest (similar to 4 kpc)/farthest (similar to 12 kpc) Cepheids have significant negative/positive residuals, both in velocity and in iron content. We discuss the possibility that such residuals are related to large-scale dynamical instabilities, induced by the bar/spiral-arm pattern, but the current sample is too limited to reach firm conclusions.
2019
2018
stars: variables: Cepheids – Galaxy: abundances – Galaxy: kinematics and dynamics
Inno, L; Urbaneja, Ma; Matsunaga, N; Bono, G; Nonino, M; Debattista, Vp; Sormani, M; Bergemann, M; da Silva, R; Lemasle, B; Romaniello, M; Rix, Hw...espandi
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11383/2170750
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