Your search keyword '"Michelle Cappellari"' showing total 2 results

1. The MBHBM⋆ Project. I. Measurement of the Central Black Hole Mass in Spiral Galaxy NGC 3504 Using Molecular Gas Kinematics.

Author

Dieu D. Nguyen, Mark den Brok, Anil C. Seth, Timothy A. Davis, Jenny E. Greene, Michelle Cappellari, Joseph B. Jensen, Sabine Thater, Satoru Iguchi, Masatoshi Imanishi, Takuma Izumi, Kristina Nyland, Nadine Neumayer, Kouichiro Nakanishi, Phuong M. Nguyen, Takafumi Tsukui, Martin Bureau, Kyoko Onishi, Quang L. Nguyen, and Ngan M. Le

Subjects

SPIRAL galaxies, BLACK holes, SUPERMASSIVE black holes, MILKY Way, KINEMATICS, MASS measurement

Abstract

We present a dynamical mass measurement of the supermassive black hole (SMBH) in the nearby double-barred spiral galaxy NGC 3504 as part of the Measuring Black Holes in below Milky Way (M⋆) Mass Galaxies Project. Our analysis is based on Atacama Large Millimeter/submillimeter Array cycle 5 observations of the emission line. These observations probe NGC 3504's circumnuclear gas disk (CND). Our dynamical model of the CND simultaneously constrains a black hole (BH) mass of M⊙, which is consistent with the empirical BH–galaxy scaling relations and a mass-to-light ratio in the H band of 0.44 ± 0.12 (M⊙/). This measurement also relies on our new estimation of the distance to the galaxy of 32.4 ± 2.1 Mpc using the surface brightness fluctuation method, which is much further than the existing distance estimates. Additionally, our observations detect a central deficit in the integrated intensity map with a diameter of 6.3 pc at the putative position of the SMBH. However, we find that a dense gas tracer CS(5 − 4) peaks at the galaxy center, filling in the 12CO(2 − 1)-attenuated hole. Holes like this one are observed in other galaxies, and our observations suggest these may be caused by changing excitation conditions rather than a true absence of molecular gas around the nucleus. [ABSTRACT FROM AUTHOR]

Published

2020

2. Improved Dynamical Constraints on the Masses of the Central Black Holes in Nearby Low-mass Early-type Galactic Nuclei and the First Black Hole Determination for NGC 205.

Author

Dieu D. Nguyen, Anil C. Seth, Nadine Neumayer, Satoru Iguchi, Michelle Cappellari, Jay Strader, Laura Chomiuk, Evangelia Tremou, Fabio Pacucci, Kouichiro Nakanishi, Arash Bahramian, Phuong M. Nguyen, Mark den Brok, Christopher C. Ahn, Karina T. Voggel, Nikolay Kacharov, Takafumi Tsukui, Cuc K. Ly, Antoine Dumont, and Renuka Pechetti

Subjects

BLACK holes, GALACTIC nuclei, GALAXIES, STAR formation

Abstract

We improve the dynamical black hole (BH) mass estimates in three nearby low-mass early-type galaxies: NGC 205, NGC 5102, and NGC 5206. We use new Hubble Space Telescope (HST)/STIS spectroscopy to fit the star formation histories of the nuclei in these galaxies, and use these measurements to create local color–mass-to-light ratio (M/L) relations. We then create new mass models from HST imaging and combined with adaptive optics kinematics, we use Jeans dynamical models to constrain their BH masses. The masses of the central BHs in NGC 5102 and NGC 5206 are both below one million solar masses and are consistent with our previous estimates, M⊙ and M⊙ (3σ errors), respectively. However, for NGC 205, the improved models suggest the presence of a BH for the first time, with a best-fit mass of M⊙ (3σ errors). This is the least massive central BH mass in a galaxy detected using any method. We discuss the possible systematic errors of this measurement in detail. Using this BH mass, the existing upper limits of both X-ray, and radio emissions in the nucleus of NGC 205 suggest an accretion rate ≲10−5 of the Eddington rate. We also discuss the color–M/Leff relations in our nuclei and find that the slopes of these vary significantly between nuclei. Nuclei with significant young stellar populations have steeper color–M/Leff relations than some previously published galaxy color–M/Leff relations. [ABSTRACT FROM AUTHOR]

Published

2019