Jun 19 – 23, 2023
SJTU & Suzhou Bay
Asia/Shanghai timezone

Dynamical hotness, star formation quenching and growth of supermassive black holes

Jun 20, 2023, 10:00 AM
20m
3rd floor meeting room (SJTU)

3rd floor meeting room

SJTU

Talk Evolution Galaxy: evolution

Speaker

Ms 慧 洪 (中国科学技术大学)

Description

A stellar system is dynamically hot when its kinetic energy is dominated by random motion represented by the velocity dispersion $\sigma_{hot}$. We use MaNGA data to obtain inner and outer dispersion of a galaxy, $\sigma_{in}$ and $\sigma_{out}$, to characterize its dynamical status and study its connection with star-formation quenching and the growth of supermassive black hole(SMBH). We divide galaxies into fully quenched (FQGs), partially quenched (PQGs) and fully star-forming (FSGs) populations, and identify quenched central cores (QCCs) in PQGs. The galaxy distribution in $\sigma_{in}/\sigma_{hot}$-$\sigma_{out}/\sigma_{hot}$ diagram is L-shaped, consisting of a horizontal sequence ($\sigma_{out}/\sigma_{hot}\sim0$) and a vertical sequence ($\sigma_{in}/\sigma_{hot}\sim1$). FQGs and QCCs are located at the top of the vertical sequence, $\sigma_{out}/\sigma_{hot}\sim1$, and are thus dynamically hot over their entire bodies. PQGs reside along the vertical sequence, so they have hot center but cold outskirt. FSGs are diverse and can be found in both sequences. Galaxy structural properties, star formation and AGN activities make a transition along the horizontal sequence at $\sigma_{in}/\sigma_{hot}\sim 0.5$, and along the vertical sequence at $\sigma_{out}/\sigma_{hot}\sim 0.5$. The fractions of optical AGNs and barred galaxies increase rapidly in the first transition and decline rapidly in the second; radio galaxies are located at the top of the vertical sequence. Our results demonstrate that star formation quenching and SMBH growth are effective only in dynamically hot systems. A simple model along this line can reproduce the observed SMBH scaling relations. We discuss how secular processes and strong interactions can make a system dynamically hot, and lead to the SMBH growth and
star-formation quenching.

Primary author

Ms 慧 洪 (中国科学技术大学)

Presentation materials