Professor James Binney FRS

Supernovae and the intergalactic medium

GAS AND GALAXY EVOLUTION: A CONFERENCE IN HONOR OF THE 20TH ANNIVERSARY OF THE VLA 240 (2001) 355-362

The black hole mass vs bulge mass relationship in spiral galaxies

GALAXIES AND THEIR CONSTITUENTS AT THE HIGHEST ANGULAR RESOLUTIONS (2001) 58-61

Authors:

A Marconi, D Axon, J Atkinson, J Binney, A Capetti, M Carollo, L Dressel, H Ford, J Gerssen, M Hughes, D Macchetto, W Maciejewski, M Merrifield, C Scarlata, W Sparks, M Stiavelli, Z Tsvetanov, R van der Marel

The black hole mass vs bulge mass relationship in spiral galaxies

ArXiv astro-ph/0012155 (2000)

Authors:

A Marconi, D Axon, J Atkinson, J Binney, A Capetti, M Carollo, L Dressel, H Ford, J Gerssen, M Hughes, D Macchetto, W Maciejewski, M Merrifield, C Scarlata, W Sparks, M Stiavelli, Z Tsvetanov, R van der Marel

Abstract:

We describe an on-going HST program aimed at determining the relationship between the nuclear black hole mass and bulge mass in spiral galaxies. We have selected a volume limited sample of 54 nearby spiral galaxies for which we already have ground based emission line rotation curves, CCD surface photometry and radio maps. We are now obtaining HST/STIS longslit observations of each of the galaxies in the sample in order to determine the nuclear Halpha rotation curve at high (~0.1") spatial resolution. We will use these data to measure the unresolved dark mass concentration at the nucleus of each object. Here we show the first results from observations of objects in the sample.

Gas kinematics from spectroscopy with a wide slit: detecting nuclear black holes

ArXiv astro-ph/0012028 (2000)

Authors:

Witold Maciejewski, James Binney

Abstract:

Motivated by STIS observations of more than 50 nearby galactic nuclei, we consider long-slit emission-line spectra when the slit is wider than the instrumental PSF, and the target has arbitrarily large velocity gradients. The finite width of the slit generates complex patterns in the spectra that can be misinterpreted as coming from various physically distinct nuclear components, but when interpreted correctly, they can have considerable diagnostic power. For a thin disk in circular motion around a central galactic black hole (BH), a characteristic artifact occurs in the spectrum at the outer edge of the BH's sphere of influence. It betrays the presence of a BH, and allows us to develop a new method for estimating its mass, which gives higher sensitivity to BH detection than traditional methods.

The age of the solar neighbourhood

Monthly Notices of the Royal Astronomical Society 318:3 (2000) 658-664

Authors:

J Binney, W Dehnen, G Bertelli

Abstract:

High-quality Hipparcos data for a complete sample of nearly 12 000 main-sequence and subgiant stars, together with Padua isochrones, are used to constrain the star formation history of the solar neigbourhood and the processes that stochastically accelerate disc stars. The velocity dispersion of a coeval group of stars is found to increase with time from ∼8 km s-1 at birth as t0.33. In the fits, the slope of the initial mass function (IMF) near 1 M⊙ proves to be degenerate with the rate at which the star formation rate declines. If the slope of the IMF is to lie near Salpeter's value, -2.35, the star formation rate has to be very nearly constant. The age of the solar neighbourhood is found to be 11.2 ± 0.75 Gyr with remarkably little sensitivity to variations in the assumed metallicity distribution of old disc stars. This age is only a gigayear younger than the age of the oldest globular clusters when the same isochrones and distance scale are employed. It is compatible with current indications of the redshift of luminous galaxy formation only if there is a large cosmological constant. A younger age is formally excluded because it provides a poor fit to the number density of red stars. Since this density is subject to a significantly uncertain selection function, ages as low as 9 Gyr are plausible even though they lie outside our formal error bars.