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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.

Ian Heywood

Visitor

Research theme

  • Astronomy and astrophysics

Sub department

  • Astrophysics

Research groups

  • Galaxy formation and evolution
  • MeerKAT
  • Pulsars, transients and relativistic astrophysics
  • The Square Kilometre Array (SKA)
  • Breakthrough Listen
ian.heywood@physics.ox.ac.uk
  • About
  • Publications

Gravitationally lensed H I with MeerKAT

Proceedings of Science Part F138095 (2016)

Authors:

R Deane, D Obreschkow, I Heywood

Abstract:

© Copyright owned by the author(s). The SKA era is set to revolutionize our understanding of neutral hydrogen (H I) in individual galaxies out to redshifts of z ∼ 0.8; and in the z > 6 intergalactic medium through the detection and imaging of cosmic reionization. Direct H I number density constraints will, nonetheless, remain relatively weak out to cosmic noon (z ∼ 2) - the epoch of peak star formation and black hole accretion - and beyond. However, as was demonstrated from the 1990s with molecular line observations, this can be overcome by utilising the natural amplification afforded by strong gravitational lensing, which results in an effective increase in integration time by the square of the total magnification (µ2) for an unresolved source. Here we outline how a dedicated lensed H I survey will leverage MeerKAT’s high sensitivity, frequency coverage, large instantaneous bandwidth, and high dynamic range imaging to enable a lasting legacy of high-redshift H I emission detections well into the SKA era. This survey will not only provide high-impact, rapid-turnaround MeerKAT science commissioning results, but also unveil Milky Way-like systems towards cosmic noon which is not possible with any other SKA precursors/pathfinders. An ambitious lensed H I survey will therefore make a significant impact from MeerKAT commissioning all the way through to the full SKA era, and provide a more complete picture of the H I history of the Universe.

Gravitationally lensed H I with MeerKAT

Proceedings of Science (2016)

Authors:

R Deane, D Obreschkow, I Heywood

Abstract:

The SKA era is set to revolutionize our understanding of neutral hydrogen (H I) in individual galaxies out to redshifts of z ∼ 0.8; and in the z > 6 intergalactic medium through the detection and imaging of cosmic reionization. Direct H I number density constraints will, nonetheless, remain relatively weak out to cosmic noon (z ∼ 2) - the epoch of peak star formation and black hole accretion - and beyond. However, as was demonstrated from the 1990s with molecular line observations, this can be overcome by utilising the natural amplification afforded by strong gravitational lensing, which results in an effective increase in integration time by the square of the total magnification (µ2) for an unresolved source. Here we outline how a dedicated lensed H I survey will leverage MeerKAT’s high sensitivity, frequency coverage, large instantaneous bandwidth, and high dynamic range imaging to enable a lasting legacy of high-redshift H I emission detections well into the SKA era. This survey will not only provide high-impact, rapid-turnaround MeerKAT science commissioning results, but also unveil Milky Way-like systems towards cosmic noon which is not possible with any other SKA precursors/pathfinders. An ambitious lensed H I survey will therefore make a significant impact from MeerKAT commissioning all the way through to the full SKA era, and provide a more complete picture of the H I history of the Universe.

LADUMA: looking at the distant universe with the MeerKAT array

Proceedings of Science Part F138095 (2016)

Authors:

SL Blyth, AJ Baker, BW Holwerda, BA Bassett, MA Bershady, A Bouchard, FH Briggs, B Catinella, L Chemin, SM Crawford, CM Cress, D Cunnama, JK Darling, R Davé, RP Deane, WJG de Blok, EC Elson, A Faltenbacher, S February, X Fernández, BS Frank, E Gawiser, PA Henning, KM Hess, I Heywood, JP Hughes, MJ Jarvis, SJ Kannappan, NS Katz, D Kereš, HR Klöckner, RC Kraan-Korteweg, P Lah, MD Lehnert, AK Leroy, M Lochner, N Maddox, S Makhathini, GR Meurer, MJ Meyer, K Moodley, R Morganti, D Obreschkow, SH Oh, TA Oosterloo, DJ Pisano, A Popping, G Popping, S Ravindranath, E Schinnerer, AC Schröder, K Sheth, R Skelton, OM Smirnov, M Smith, RS Somerville, R Srianand, L Staveley-Smith, IM Stewart, M Vaccari, P Väisänen, KJ van der Heyden, W van Driel, MAW Verheijen, F Walter, EM Wilcots, TB Williams, PA Woudt, JF Wu, MA Zwaan, JTL Zwart, S Rawlings

Abstract:

© Copyright owned by the author(s). The cosmic evolution of galaxies’ neutral atomic gas content is a major science driver for the Square Kilometre Array (SKA), as well as for its South African (MeerKAT) and Australian (ASKAP) precursors. Among the H I large survey programs (LSPs) planned for ASKAP and MeerKAT, the deepest and narrowest tier of the “wedding cake” will be defined by the combined L-band+UHF-band Looking At the Distant Universe with the MeerKAT Array (LADUMA) survey, which will probe H I in emission within a single “cosmic vuvuzela” that extends to z = 1.4, when the universe was only a third of its present age. Through a combination of individual and stacked detections (the latter relying on extensive multi-wavelength studies of the survey’s target field), LADUMA will study the redshift evolution of the baryonic Tully–Fisher relation and the cosmic H I density, the variation of the H I mass function with redshift and environment, and the connection between H I content and galaxies’ stellar properties (mass, age, etc.). The survey will also build a sample of OH megamaser detections that can be used to trace the cosmic merger history. This proceedings contribution provides a brief introduction to the survey, its scientific aims, and its technical implementation, deferring a more complete discussion for a future article after the implications of a recent review of MeerKAT LSP project plans are fully worked out.

LADUMA: looking at the distant universe with the MeerKAT array

Proceedings of Science (2016)

Authors:

SL Blyth, AJ Baker, BW Holwerda, BA Bassett, MA Bershady, A Bouchard, FH Briggs, B Catinella, L Chemin, SM Crawford, CM Cress, D Cunnama, JK Darling, R Davé, RP Deane, WJG de Blok, EC Elson, A Faltenbacher, S February, X Fernández, BS Frank, E Gawiser, PA Henning, KM Hess, I Heywood, JP Hughes, MJ Jarvis, SJ Kannappan, NS Katz, D Kereš, HR Klöckner, RC Kraan-Korteweg, P Lah, MD Lehnert, AK Leroy, M Lochner, N Maddox, S Makhathini, GR Meurer, MJ Meyer, K Moodley, R Morganti, D Obreschkow, SH Oh, TA Oosterloo, DJ Pisano, A Popping, G Popping, S Ravindranath, E Schinnerer, AC Schröder, K Sheth, R Skelton, OM Smirnov, M Smith, RS Somerville, R Srianand, L Staveley-Smith, IM Stewart, M Vaccari, P Väisänen, KJ van der Heyden, W van Driel, MAW Verheijen, F Walter, EM Wilcots, TB Williams, PA Woudt, JF Wu, MA Zwaan, JTL Zwart, S Rawlings

Abstract:

© Copyright owned by the author(s). The cosmic evolution of galaxies’ neutral atomic gas content is a major science driver for the Square Kilometre Array (SKA), as well as for its South African (MeerKAT) and Australian (ASKAP) precursors. Among the H I large survey programs (LSPs) planned for ASKAP and MeerKAT, the deepest and narrowest tier of the “wedding cake” will be defined by the combined L-band+UHF-band Looking At the Distant Universe with the MeerKAT Array (LADUMA) survey, which will probe H I in emission within a single “cosmic vuvuzela” that extends to z = 1.4, when the universe was only a third of its present age. Through a combination of individual and stacked detections (the latter relying on extensive multi-wavelength studies of the survey’s target field), LADUMA will study the redshift evolution of the baryonic Tully–Fisher relation and the cosmic H I density, the variation of the H I mass function with redshift and environment, and the connection between H I content and galaxies’ stellar properties (mass, age, etc.). The survey will also build a sample of OH megamaser detections that can be used to trace the cosmic merger history. This proceedings contribution provides a brief introduction to the survey, its scientific aims, and its technical implementation, deferring a more complete discussion for a future article after the implications of a recent review of MeerKAT LSP project plans are fully worked out.

LADUMA: looking at the distant universe with the MeerKAT array

Proceedings of Science (2016)

Authors:

SL Blyth, AJ Baker, BW Holwerda, BA Bassett, MA Bershady, A Bouchard, FH Briggs, B Catinella, L Chemin, SM Crawford, CM Cress, D Cunnama, JK Darling, R Davé, RP Deane, WJG de Blok, EC Elson, A Faltenbacher, S February, X Fernández, BS Frank, E Gawiser, PA Henning, KM Hess, I Heywood, JP Hughes, MJ Jarvis, SJ Kannappan, NS Katz, D Kereš, HR Klöckner, RC Kraan-Korteweg, P Lah, MD Lehnert, AK Leroy, M Lochner, N Maddox, S Makhathini, GR Meurer, MJ Meyer, K Moodley, R Morganti, D Obreschkow, SH Oh, TA Oosterloo, DJ Pisano, A Popping, G Popping, S Ravindranath, E Schinnerer, AC Schröder, K Sheth, R Skelton, OM Smirnov, M Smith, RS Somerville, R Srianand, L Staveley-Smith, IM Stewart, M Vaccari, P Väisänen, KJ van der Heyden, W van Driel, MAW Verheijen, F Walter, EM Wilcots, TB Williams, PA Woudt, JF Wu, MA Zwaan, JTL Zwart, S Rawlings

Abstract:

The cosmic evolution of galaxies’ neutral atomic gas content is a major science driver for the Square Kilometre Array (SKA), as well as for its South African (MeerKAT) and Australian (ASKAP) precursors. Among the H I large survey programs (LSPs) planned for ASKAP and MeerKAT, the deepest and narrowest tier of the “wedding cake” will be defined by the combined L-band+UHF-band Looking At the Distant Universe with the MeerKAT Array (LADUMA) survey, which will probe H I in emission within a single “cosmic vuvuzela” that extends to z = 1.4, when the universe was only a third of its present age. Through a combination of individual and stacked detections (the latter relying on extensive multi-wavelength studies of the survey’s target field), LADUMA will study the redshift evolution of the baryonic Tully–Fisher relation and the cosmic H I density, the variation of the H I mass function with redshift and environment, and the connection between H I content and galaxies’ stellar properties (mass, age, etc.). The survey will also build a sample of OH megamaser detections that can be used to trace the cosmic merger history. This proceedings contribution provides a brief introduction to the survey, its scientific aims, and its technical implementation, deferring a more complete discussion for a future article after the implications of a recent review of MeerKAT LSP project plans are fully worked out.

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