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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

An ALMA survey of the brightest sub-millimetre sources in the SCUBA-2 COSMOS field

(2020)

Authors:

JM Simpson, Ian Smail, U Dudzeviciute, Y Matsuda, B-C Hsieh, W-H Wang, AM Swinbank, SM Stach, Fang Xia An, JE Birkin, Y Ao, AJ Bunker, SC Chapman, Chian-Chou Chen, KEK Coppin, S Ikarashi, RJ Ivison, I Mitsuhashi, T Saito, H Umehata, R Wang, Y Zhao
More details from the publisher

Simulating JWST/NIRCam Color Selection of High-Redshift Galaxies

(2020)

Authors:

Kevin N Hainline, Raphael E Hviding, Marcia Rieke, Irene Shivaei, Ryan Endsley, Emma Curtis-Lake, Renske Smit, Christina C Williams, Stacey Alberts, Kristan NK Boyett, Andrew J Bunker, Eiichi Egami, Michael V Maseda, Sandro Tacchella, Christopher NA Willmer
More details from the publisher

S2COSMOS: Evolution of Gas Mass with Redshift Using Dust Emission

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) (2020)

Authors:

Ho Seong Hwang, Mj Michałowski, A Babul, Lc Ho, Y Ao, Jenifer S Millard, Stephen A Eales, Mwl Smith, Jm Simpson, Hl Gomez, K Małek, Y Peng, Andrew Bunker, M Sawicki, Ra Beeston, Y Toba, N Scoville, H Shim

Abstract:

<jats:title>Abstract</jats:title> <jats:p>We investigate the evolution of the gas mass fraction for galaxies in the COSMOS field using submillimetre emission from dust at 850μm. We use stacking methodologies on the 850 μm S2COSMOS map to derive the gas mass fraction of galaxies out to high redshifts, 0 ≤ z ≤ 5, for galaxies with stellar masses of $10^{9.5} &amp;lt; M_* ~(\rm M_{\odot }) &amp;lt; 10^{11.75}$. In comparison to previous literature studies we extend to higher redshifts, include more normal star-forming galaxies (on the main sequence), and also investigate the evolution of the gas mass fraction split by star-forming and passive galaxy populations. We find our stacking results broadly agree with scaling relations in the literature. We find tentative evidence for a peak in the gas mass fraction of galaxies at around z ∼ 2.5 − 3, just before the peak of the star formation history of the Universe. We find that passive galaxies are particularly devoid of gas, compared to the star-forming population. We find that even at high redshifts, high stellar mass galaxies still contain significant amounts of gas.</jats:p>
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Details from ORA
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S2COSMOS: Evolution of Gas Mass with Redshift Using Dust Emission

(2020)

Authors:

Jenifer S Millard, Stephen A Eales, MWL Smith, HL Gomez, K Małek, JM Simpson, Y Peng, M Sawicki, RA Beeston, Andrew Bunker, Y Ao, A Babul, LC Ho, Ho Seong Hwang, MJ Michałowski, N Scoville, H Shim, Y Toba
More details from the publisher

The rest-frame UV luminosity function at $z \simeq 4$: a significant contribution of AGN to the bright-end of the galaxy population

(2019)

Authors:

NJ Adams, RAA Bowler, MJ Jarvis, B Häußler, RJ McLure, A Bunker, JS Dunlop, A Verma
More details from the publisher

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