I. S. Proshina scite author profile

By undertaking deep long‐slit spectroscopy with the focal reducer Spectral Camera with Optical Reducer for Photometrical and Interferometrical Observations (SCORPIO) of the Russian 6 m telescope, we studied stellar population properties and their variation with radius in 15 nearby S0 galaxies sampling a wide range of luminosities and environments. For the large‐scale stellar discs of S0s, we have measured simple stellar population (SSP)‐equivalent metallicities ranging from the solar one down to [ Z/H ]=−0.4 to −0.7, rather high magnesium‐to‐iron ratios, [Mg/Fe] ≥ +0.2, and mostly old SSP‐equivalent ages. Nine of 15 (60 ± 13 per cent) galaxies have large‐scale stellar discs older than 10 Gyr, and among those we find all the galaxies which reside in denser environments. The isolated galaxies may have intermediate‐age stellar discs which are 7–9 Gyr old. Only two galaxies of our sample, NGC 4111 and NGC 7332, reveal SSP‐equivalent ages of their discs of 2–3 Gyr. Just these two young discs appear to be thin, while the other, older discs have scale heights typical for thick stellar discs. The stellar populations in the bulges at radii of 0.5re are on the contrary more metal rich than the solar Z⊙, with the ages homogeneously distributed between 2 and 15 Gyr, being almost always younger than the discs. We conclude that S0 galaxies could not form in groups at z ≈ 0.4 as is thought now; a new scenario of the general evolution of disc galaxies is proposed instead.

show abstract

Star-forming Rings in Lenticular Galaxies: Origin of the Gas^∗

Proshina

Kniazev

Сильченко

2019

View full text Add to dashboard Cite

Rings in S0s are enigmatic features which can however betray the evolutionary paths of particular galaxies. We have undertaken long-slit spectroscopy of five lenticular galaxies with UV-bright outer rings. The observations have been made with the Southern African Large Telescope (SALT) to reveal the kinematics, chemistry, and the ages of the stellar populations and the gas characteristics in the rings and surrounding disks. Four of the five rings are also bright in the Hα emission line, and the spectra of the gaseous rings extracted around the maxima of the Hα equivalent width reveal excitation by young stars betraying current star formation in the rings. The integrated level of this star formation is 0.1-0.2 M ⊙ per year, with the outstanding value of 1 M ⊙ per year in NGC 7808. The difference of chemical composition between the ionized gas of the rings which demonstrate nearly solar metallicity and the underlying stellar disks which are metal poor implies recent accretion of the gas and star formation ignition; the star formation history estimated by using different star formation indicators implies that the star formation rate decreases with e-folding time of less than 1 Gyr. In NGC 809 where the UV-ring is well visible but the Hα emission line excited by massive stars is absent, the star formation has already ceased.

show abstract

Star formation in outer rings of S0 galaxies

Proshina

Сильченко

Моисеев

2020

A&A

View full text Add to dashboard Cite

Aims. Although S0 galaxies are often thought to be “red and dead”, they frequently demonstrate star formation organised in ring structures. We try to clarify the nature of this phenomenon and its difference from star formation in spiral galaxies. Here we study the moderate-luminosity nearby S0 galaxy, NGC 4513. Methods. By applying long-slit spectroscopy along the major axis of NGC 4513, we measured gas and star kinematics, Lick indices for the main body of the galaxy, and strong emission-line flux ratios in the ring. After inspecting the gas excitation in the ring using the line ratios diagnostic diagrams and showing that it is ionised by young stars, we determined the gas oxygen abundance using popular strong-line calibration methods. We estimated the star formation rate (SFR) in the outer ring using the archival Galaxy Evolution Explorer (GALEX) ultraviolet images of the galaxy. Results. The ionised gas counter-rotates the stars over the whole extension of NGC 4513 suggesting that it is being accreted from outside. The gas metallicity in the ring is slightly subsolar, [O/H] = −0.2 dex, matching the metallicity of the stellar component of the main galactic disc. However the stellar component of the ring is much more massive than can be explained by the current star formation level in the ring. We conclude that the ring of NGC 4513 is probably the result of tidal disruption of a massive gas-rich satellite, or may be the consequence of a long star-formation event provoked by gas accretion from a cosmological filament that started some 3 Gyr ago.

show abstract

Young Star-Forming Complexes in the Ring of the S0 Galaxy NGC 4324

2022

View full text Add to dashboard Cite

We present the results of our study of starforming regions in the lenticular galaxy NGC 4324. During a complex analysis of multiwavelength observational data -the narrow-band emission-line images obtained with the 2.5-m telescope at the Caucasus Mountain Observatory of the Sternberg Astronomical Institute of the Moscow State University and the archival images in the broad bands of the SDSS, GALEX and WISE surveys -we have detected young starforming complexes (clumps) located in the inner ring of the lenticular galaxy NGC 4324, and we have established a regular pattern of their distribution along the ring, which, nevertheless, changes with time (with age of starforming regions). We suggest several possible evolutionary paths of the lenticular galaxy NGC 4324, of which the accretion of gas-rich satellites or giant clouds (the so-called minor merging) is the most probable one.

show abstract

Counter-rotating gas disk in the S0 galaxy IC 560

2016

View full text Add to dashboard Cite

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

I. S. Proshina

Ages and abundances in large-scale stellar discs of nearby S0 galaxies

Star-forming Rings in Lenticular Galaxies: Origin of the Gas^∗

Star formation in outer rings of S0 galaxies

Young Star-Forming Complexes in the Ring of the S0 Galaxy NGC 4324

Counter-rotating gas disk in the S0 galaxy IC 560

Contact Info

Product

Resources

About

I. S. Proshina

Ages and abundances in large-scale stellar discs of nearby S0 galaxies

Star-forming Rings in Lenticular Galaxies: Origin of the Gas∗

Star formation in outer rings of S0 galaxies

Young Star-Forming Complexes in the Ring of the S0 Galaxy NGC 4324

Counter-rotating gas disk in the S0 galaxy IC 560

Contact Info

Product

Resources

About

Star-forming Rings in Lenticular Galaxies: Origin of the Gas^∗