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Black Hole

Lensing of space time around a black hole. At Oxford we study black holes observationally and theoretically on all size and time scales - it is some of our core work.

Credit: ALAIN RIAZUELO, IAP/UPMC/CNRS. CLICK HERE TO VIEW MORE IMAGES.

Professor Andrew Bunker

Professor of Astrophysics

Research theme

  • Astronomy and astrophysics

Sub department

  • Astrophysics

Research groups

  • Galaxy formation and evolution
Andy.Bunker@physics.ox.ac.uk
Telephone: 01865 (2)83126
Denys Wilkinson Building, room 702
  • About
  • Publications

Seeking the Ultraviolet Ionizing Background at z~3 with the Keck Telescope

(1998)

Authors:

Andrew J Bunker, Francine R Marleau, James R Graham
More details from the publisher

Keck Spectroscopy and NICMOS Photometry of a Redshift z=5.60 Galaxy

(1998)

Authors:

RJ Weymann, D Stern, A Bunker, H Spinrad, FH Chaffee, RI Thompson, LJ Storrie-Lombardi
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Limits on the star formation rates of z>2 damped Ly-alpha systems from H-alpha spectroscopy

(1998)

Authors:

Andrew J Bunker, Stephen J Warren, DL Clements, Gerard M Williger, PC Hewett
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Spectroscopy of z>3 Lyman-limit Galaxies

(1998)

Authors:

Hyron Spinrad, Arjun Dey, Daniel Stern, Andrew Bunker
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A z = 5.34 galaxy pair in the Hubble Deep Field

Astronomical Journal 116:6 (1998) 2617-2623

Authors:

H Spinrad, D Stern, A Bunker, A Dey, K Lanzetta, A Yahil, S Pascarelle, A Fernández-Soto

Abstract:

We present spectrograms of the faint V-drop (V606 = 28.1, I814 = 25.6) galaxy pair HDF 3-951.1 and HDF 3-951.2 obtained at the Keck II Telescope. In a recent study, Fernández-Soto, Lanzetta, & Yahil derive a photometric redshift of zph = 5.28+0.34-0.41 (2 σ) for these galaxies; our integrated spectrograms show a large and abrupt discontinuity near 7710 ± 5 Å. This break is almost certainly due to the Lyα forest because its amplitude (1 - fshortv/flongv > 0.87, 95% confidence limit) exceeds any discontinuities observed in stellar or galactic rest-frame optical spectra. The resulting absorption break redshift is z = 5.34 ± 0.01. Optical/near-IR photometry from the HDF yields an exceptionally red (V606 - I814) color, consistent with this large break. A more accurate measure of the continuum depression blueward of Lyα utilizing the imaging photometry yields DA = 0.88. The system as a whole is slightly brighter than L*1500 relative to the z ∼ 3 Lyman break population, and the total star formation rate inferred from the UV continuum is ≈22 h-250 M⊙ yr-1 (q0 = 0.5) assuming the absence of dust extinction. The two individual galaxies are quite small (size scales ≲ 1 h-150 kpc). Thus these galaxies superficially resemble the "building blocks" of Pascarelle and coworkers; if they comprise a gravitationally bound system, the pair will likely merge in a timescale ∼100 Myr.
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