Professor Andrew Bunker

Illuminating Protogalaxies? Discovery of Extended Lyman-α Emission Around A Z=4.5 Radio-Quiet QSO

Chapter in Multiwavelength Cosmology, Springer Nature (2004) 67-70

Spectroscopic gravitational lensing and limits on the dark matter substructure in Q2237+0305

ASTROPHYSICAL JOURNAL 607:1 (2004) 43-59

Authors:

RB Metcalf, LA Moustakas, AJ Bunker, IR Parry

Three Lyα emitters at z ≈ 6:: Early GMOS/Gemini data from the GLARE project

ASTROPHYSICAL JOURNAL 604:1 (2004) L13-L16

Authors:

ER Stanway, K Glazebrook, AJ Bunker, RG Abraham, I Hook, J Rhoads, PJ McCarthy, B Boyle, M Colless, D Crampton, W Couch, I Jorgensen, S Malhotra, R Murowinski, K Roth, S Savaglio, Z Tsvetanov

Three Lyman-alpha Emitters at z approx 6: Early GMOS/Gemini Data from the GLARE Project

(2003)

Authors:

Elizabeth R Stanway, Karl Glazebrook, Andrew J Bunker, Roberto G Abraham, Isobel Hook, James Rhoads, Patrick J McCarthy, Brian Boyle, Matthew Colless, David Crampton, Warrick Couch, Inger Jørgensen, Sangeeta Malhotra, Rick Murowinski, Kathy Roth, Sandra Savaglio, Zlatan Tsvetanov

3D spectroscopy of Z ∼ galaxies with Gemini

Astrophysics and Space Science 284:2 (2003) 973-976

Authors:

J Smith, A Bunker, R Bower

Abstract:

Area spectroscopy has significant advantages over both traditional imaging and long-slit spectroscopy: it is more efficient in observing time, and yields substantially more information. Through Integral Field Units, area spectroscopy is becoming an essential part of new facility instruments on the latest large telescopes. We have been undertaking a programme on the Gemini 8-m telescopes to demonstrate the power of integral field spectroscopy, using the optical GMOS spectrograph, and the new CIRPASS instrument in the near-infrared. Here we present some preliminary results from 3D spectroscopy of z ∼ 1 objects, mapping the emission lines in a 3CR radio galaxy and in a gravitationally lensed arc.