Cosmology

A geometric distance to the supermassive black Hole of NGC 3783

Astronomy & Astrophysics EDP Sciences 654 (2021) a85

Authors:

A Amorim, M Bauböck, MC Bentz, W Brandner, M Bolzer, Y Clénet, R Davies, PT de Zeeuw, J Dexter, A Drescher, A Eckart, F Eisenhauer, NM Förster Schreiber, PJV Garcia, R Genzel, S Gillessen, D Gratadour, S Hönig, D Kaltenbrunner, M Kishimoto, S Lacour, D Lutz, F Millour, H Netzer, CA Onken, T Ott, T Paumard, K Perraut, G Perrin, PO Petrucci, O Pfuhl, MA Prieto, D Rouan, J Shangguan, T Shimizu, J Stadler, A Sternberg, O Straub, C Straubmeier, R Street, E Sturm, LJ Tacconi, KRW Tristram, P Vermot, S von Fellenberg, F Widmann, J Woillez

Constraining particle acceleration in Sgr A⋆ with simultaneous GRAVITY, Spitzer, NuSTAR, and Chandra observations

Astronomy & Astrophysics EDP Sciences 654 (2021) a22

Authors:

R Abuter, A Amorim, M Bauböck, F Baganoff, JP Berger, H Boyce, H Bonnet, W Brandner, Y Clénet, R Davies, PT de Zeeuw, J Dexter, Y Dallilar, A Drescher, A Eckart, F Eisenhauer, GG Fazio, NM Förster Schreiber, K Foster, C Gammie, P Garcia, F Gao, E Gendron, R Genzel, G Ghisellini, S Gillessen, MA Gurwell, M Habibi, D Haggard, C Hailey, FA Harrison, X Haubois, G Heißel, T Henning, S Hippler, JL Hora, M Horrobin, A Jiménez-Rosales, L Jochum, L Jocou, A Kaufer, P Kervella, S Lacour, V Lapeyrère, J-B Le Bouquin, P Léna, PJ Lowrance, D Lutz, S Markoff, K Mori, MR Morris, J Neilsen, M Nowak, T Ott, T Paumard, K Perraut, G Perrin, G Ponti, O Pfuhl, S Rabien, G Rodríguez-Coira, J Shangguan, T Shimizu, S Scheithauer, HA Smith, J Stadler, DK Stern, O Straub, C Straubmeier, E Sturm, LJ Tacconi, F Vincent, SD von Fellenberg, I Waisberg, F Widmann, E Wieprecht, E Wiezorrek, SP Willner, G Witzel, J Woillez, S Yazici, A Young, S Zhang, G Zins

Binaries are softer than they seem: effects of an external potential on the scattering dynamics of binaries

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 508:1 (2021) 190-194

Authors:

Yonadav Barry Ginat, Hagai B Perets

Measuring the baryonic Tully-Fisher relation below the detection threshold

Monthly Notices of the Royal Astronomical Society Oxford University Press 508:2 (2021) 1897-1907

Authors:

Hengxing Pan, Matt J Jarvis, Anastasia A Ponomareva, Mario G Santos, James R Allison, Natasha Maddox, Bradley S Frank

Abstract:

We present a novel 2D flux density model for observed H i emission lines combined with a Bayesian stacking technique to measure the baryonic Tully-Fisher relation below the nominal detection threshold. We simulate a galaxy catalogue, which includes H i lines described with either Gaussian or busy function profiles, and H i data cubes with a range of noise and survey areas similar to the MeerKAT International Giga-Hertz Tiered Extragalactic Exploration (MIGHTEE) survey. With prior knowledge of redshifts, stellar masses, and inclinations of spiral galaxies, we find that our model can reconstruct the input baryonic Tully-Fisher parameters (slope and zero-point) most accurately in a relatively broad redshift range from the local Universe to z = 0.3 for all the considered levels of noise and survey areas and up to z = 0.55 for a nominal noise of 90 μJy/channel over 5 deg2. Our model can also determine the MHI - M∗ relation for spiral galaxies beyond the local Universe and account for the detailed shape of the H I emission line, which is crucial for understanding the dynamics of spiral galaxies. Thus, we have developed a Bayesian stacking technique for measuring the baryonic Tully-Fisher relation for galaxies at low stellar and/or H I masses and/or those at high redshift, where the direct detection of H I requires prohibitive exposure times.

Catalogues of voids as antihalos in the local Universe

(2021)

Authors:

Harry Desmond, Maxwell L Hutt, Julien Devriendt, Adrianne Slyz

Abstract:

A recently-proposed algorithm identifies voids in simulations as the regions associated with halos when the initial overdensity field is negated. We apply this method to the real Universe by running a suite of constrained simulations of the 2M++ volume with initial conditions inferred by the BORG algorithm, along with the corresponding inverted set. Our 101 inverted and uninverted simulations, spanning the BORG posterior, each identify ~150,000 "voids as antihalos" with mass exceeding $4.36\times10^{11} \: \mathrm{M_\odot}$ (100 particles) at $z=0$ in a full-sky sphere of radius 155 Mpc/h around the Milky Way. We calculate the size function, volume filling fraction, ellipticity, central and average density, specific angular momentum, clustering and stacked density profile of the voids, and cross-correlate them with those produced by VIDE on the same simulations. We make our antihalo and VIDE catalogues publicly available.