Astronomy Observation and Theory Consolidated Grant 2012
Lead Research Organisation:
University of Cambridge
Department Name: Institute of Astronomy
Abstract
This proposal is for a single Consolidated Grant to support the
majority of research in Theoretical and Observational Astrophysics at
the Institute of Astronomy (IoA) in Cambridge. The new grant subsumes
research activity previously supported by STFC under the three generic
themes: "Theory", "X-ray Astrophysics" and "Galaxy Formation and
Evolution".
The theoretical research profile includes work to understand the
origin of the Universe itself. Members of the IoA are play a leading
role in the European Space Agency Planck mission, and will lead a
definitive determination of the parameters that both define the
geometry of the Universe and quantify the age, size, dark matter, dark
energy and baryonic content. The research links to one of the key
goals in astrophysics: constraining the properties of the dark matter
and dark energy content of the Universe.
The Universe today is filled with galaxies, of which our own Milky Way
is a not atypical example. A full understanding of galaxy formation
and evolution requires multiple lines of attack. Observations of the
resolved stellar populations in the Milky Way and its Local Group
companions provide a detailed fossil record of the dynamical
assemblies of the galaxies, the formation of stars, and the buildup of
heavy elements over a wide range of mass scales and initial
conditions. At the other end of the scale, observations of distant
galaxies spanning lookback times of up to 12 Gyr provide direct
measurements of the evolution of galaxy populations and the buildup of
stars and metals with cosmic time. Finally, measurements of the
large-scale star formation and abundance properties of nearby galaxies
form a vital astrophysical bridge between the studies of nearby
resolved stellar populations and the distant high-redshift
investigations, by allowing us to characterise the evolutionary
properties of the Hubble sequence and the complex "gastrophysical"
processes that regulate the accretion of gas and the formation of
stars in galaxies.
It is now recognised that there is an intimate link between the
evolution of galaxies and the origin and properties of super-massive
black holes, which reside at the centre of the Milky Way and other
galaxies. The regions close to black holes allow the exploration of
physics at the extremes. The formation and properties of super-massive
black holes and their relation to the galaxies in which they reside is
a research theme that involves theory, X-ray astrophysics and
observational programmes in the grant. The X-ray based research will
measure the spin of both the super-massive black holes, which power
the enormous energy emissions from quasars, and the stellar-mass black
holes in binary star systems. This work, based on spectroscopy of
relativistically-broadened iron lines, will also provide insights into
the accretion phenomena that power the systems.
Within galaxies, the grant focuses on star formation, from the giant
molecular clouds which give birth to stars, down to the more detailed
investigations of the processes that lead to the formation of stars
and star clusters within these molecular clouds. The investigations
will combine state-of-the-art numerical simulations with analytical
theory and a new set of multi-wavelength observations of nearby
galaxies being obtained with the Herschel and Spitzer space
observatories under IoA leadership.
The quest to study planetary systems around stars and their formation
is another key goal. Research activity in the grant extends from
searches for the elusive brown-dwarf companions to normal hot stars
through to theoretical work that concentrates on the properties of
debris discs, discs of asteroids, cometary objects, and dust
surrounding stars. A feature of the research is the investigation of
debris discs surrounding both stars on the main sequence (where they
spend the majority of their lives) and in the final stages of their
evolution.
majority of research in Theoretical and Observational Astrophysics at
the Institute of Astronomy (IoA) in Cambridge. The new grant subsumes
research activity previously supported by STFC under the three generic
themes: "Theory", "X-ray Astrophysics" and "Galaxy Formation and
Evolution".
The theoretical research profile includes work to understand the
origin of the Universe itself. Members of the IoA are play a leading
role in the European Space Agency Planck mission, and will lead a
definitive determination of the parameters that both define the
geometry of the Universe and quantify the age, size, dark matter, dark
energy and baryonic content. The research links to one of the key
goals in astrophysics: constraining the properties of the dark matter
and dark energy content of the Universe.
The Universe today is filled with galaxies, of which our own Milky Way
is a not atypical example. A full understanding of galaxy formation
and evolution requires multiple lines of attack. Observations of the
resolved stellar populations in the Milky Way and its Local Group
companions provide a detailed fossil record of the dynamical
assemblies of the galaxies, the formation of stars, and the buildup of
heavy elements over a wide range of mass scales and initial
conditions. At the other end of the scale, observations of distant
galaxies spanning lookback times of up to 12 Gyr provide direct
measurements of the evolution of galaxy populations and the buildup of
stars and metals with cosmic time. Finally, measurements of the
large-scale star formation and abundance properties of nearby galaxies
form a vital astrophysical bridge between the studies of nearby
resolved stellar populations and the distant high-redshift
investigations, by allowing us to characterise the evolutionary
properties of the Hubble sequence and the complex "gastrophysical"
processes that regulate the accretion of gas and the formation of
stars in galaxies.
It is now recognised that there is an intimate link between the
evolution of galaxies and the origin and properties of super-massive
black holes, which reside at the centre of the Milky Way and other
galaxies. The regions close to black holes allow the exploration of
physics at the extremes. The formation and properties of super-massive
black holes and their relation to the galaxies in which they reside is
a research theme that involves theory, X-ray astrophysics and
observational programmes in the grant. The X-ray based research will
measure the spin of both the super-massive black holes, which power
the enormous energy emissions from quasars, and the stellar-mass black
holes in binary star systems. This work, based on spectroscopy of
relativistically-broadened iron lines, will also provide insights into
the accretion phenomena that power the systems.
Within galaxies, the grant focuses on star formation, from the giant
molecular clouds which give birth to stars, down to the more detailed
investigations of the processes that lead to the formation of stars
and star clusters within these molecular clouds. The investigations
will combine state-of-the-art numerical simulations with analytical
theory and a new set of multi-wavelength observations of nearby
galaxies being obtained with the Herschel and Spitzer space
observatories under IoA leadership.
The quest to study planetary systems around stars and their formation
is another key goal. Research activity in the grant extends from
searches for the elusive brown-dwarf companions to normal hot stars
through to theoretical work that concentrates on the properties of
debris discs, discs of asteroids, cometary objects, and dust
surrounding stars. A feature of the research is the investigation of
debris discs surrounding both stars on the main sequence (where they
spend the majority of their lives) and in the final stages of their
evolution.
Planned Impact
The University of Cambridge has one of the most successful programmes for encouraging knowledge transfer and resulting societal impact between University departments and industry both in the UK and elsewhere. Postdoctoral staff employed on the grant have access to and are encouraged to undertake a full range of career development courses, organised by the University, which aid them in identifying and better transferring their applicable skills more widely. These skills include advanced statistical, computational and modelling techniques, systems design, image analysis, data handling, communication of science.
The IoA's approach to the search for impact opportunities has been guided by the mechanisms the University has in place to facilitate this. Specifically, it is now involved in the transfer of a range of techniques directly or indirectly developed to support its research. The further research breakthroughs expected though the activities supported by this grant over the period 2013-2016 will in turn drive the development of techniques and processes of wider applicability.
For instance the Planck research [3.1] involves the development of advanced modelling techniques which are now actively being applied to development of optics through a small spin out enterprise. Visualisation techniques developed to support the analysis of X-ray data [3.8] have led to the development and open source release to the wider community of a fully featured interactive plotting package].
The cutting edge IoA research themes help to inform and set vigorous demands on the processing and image analysis software developed more widely in the ioA, for instance in the IoA's Cambridge Astronomical Survey Unit. These analysis techniques in turn, have been found to be extremely powerful when utilised in other settings, for instance image analysis and data handling systems applied to the medical domain. Thus CASU recently had a one year Knowledge Exchange MRC grant to apply these techniques to the analysis of tissue micro array (TMA) data supporting oncological research programmes at Cancer Research UK's, Cambridge Research Institute (CRI). This work attracting considerable external attention (e.g. The PathGrid system formed the centrepiece of an extended xsnews feature in the Science special issue 'Dealing with Data' (vol 331, Feb 12, 2011).).
Published results demonstrate the effectiveness of the analysis applied to the measurement of ER protein expression in TMA data. With co-workers in the CR-UK, The University of Cambridge Dept of Oncology, Strangeways Laboratory, and the Department of Histopathology at Addenbrooke's Hospital in Cambridge, the latest application of PathGrid is to a significant large scale study - with a dataset of over 2400 tumours. Future beneficiaries include BBSRC's Institute of Food Health. CASU are initiating validation pilots with the Dept of Pathology at Addenbrooke's NHS hospital, aiming to deploy the PathGrid processing system in the Addenbrooke's clinical setting of high throughput analysis of routine breast cancer pathology tests. PathGrid has the potential to increase the effectiveness of clinical health care and enhance the quality of life of those with cancer, through improved outcomes through better targeted therapeutic treatments.
The IoA has a powerful 'understanding of science' programme. The outreach programme engages teachers, who in turn input IoA research ideas into their primary and secondary school curricula. It highlights women in science, providing role models to inspire future researchers The public observing programme reaches many thousands of people, inspiring them to make their own discoveries of the night sky. The IoA 'Artist in Residence' generates powerful multi-media material placing astrophysical science in the wider cultural context. Taken together IoA science, through its outreach, directly impacts in an uptake of young people entering science and public interest in science.
The IoA's approach to the search for impact opportunities has been guided by the mechanisms the University has in place to facilitate this. Specifically, it is now involved in the transfer of a range of techniques directly or indirectly developed to support its research. The further research breakthroughs expected though the activities supported by this grant over the period 2013-2016 will in turn drive the development of techniques and processes of wider applicability.
For instance the Planck research [3.1] involves the development of advanced modelling techniques which are now actively being applied to development of optics through a small spin out enterprise. Visualisation techniques developed to support the analysis of X-ray data [3.8] have led to the development and open source release to the wider community of a fully featured interactive plotting package].
The cutting edge IoA research themes help to inform and set vigorous demands on the processing and image analysis software developed more widely in the ioA, for instance in the IoA's Cambridge Astronomical Survey Unit. These analysis techniques in turn, have been found to be extremely powerful when utilised in other settings, for instance image analysis and data handling systems applied to the medical domain. Thus CASU recently had a one year Knowledge Exchange MRC grant to apply these techniques to the analysis of tissue micro array (TMA) data supporting oncological research programmes at Cancer Research UK's, Cambridge Research Institute (CRI). This work attracting considerable external attention (e.g. The PathGrid system formed the centrepiece of an extended xsnews feature in the Science special issue 'Dealing with Data' (vol 331, Feb 12, 2011).).
Published results demonstrate the effectiveness of the analysis applied to the measurement of ER protein expression in TMA data. With co-workers in the CR-UK, The University of Cambridge Dept of Oncology, Strangeways Laboratory, and the Department of Histopathology at Addenbrooke's Hospital in Cambridge, the latest application of PathGrid is to a significant large scale study - with a dataset of over 2400 tumours. Future beneficiaries include BBSRC's Institute of Food Health. CASU are initiating validation pilots with the Dept of Pathology at Addenbrooke's NHS hospital, aiming to deploy the PathGrid processing system in the Addenbrooke's clinical setting of high throughput analysis of routine breast cancer pathology tests. PathGrid has the potential to increase the effectiveness of clinical health care and enhance the quality of life of those with cancer, through improved outcomes through better targeted therapeutic treatments.
The IoA has a powerful 'understanding of science' programme. The outreach programme engages teachers, who in turn input IoA research ideas into their primary and secondary school curricula. It highlights women in science, providing role models to inspire future researchers The public observing programme reaches many thousands of people, inspiring them to make their own discoveries of the night sky. The IoA 'Artist in Residence' generates powerful multi-media material placing astrophysical science in the wider cultural context. Taken together IoA science, through its outreach, directly impacts in an uptake of young people entering science and public interest in science.
Organisations
Publications
Viaene S
(2015)
NGC 4370: a case study for testing our ability to infer dust distribution and mass in nearby galaxies
in Astronomy & Astrophysics
Rigliaco E
(2016)
The Gaia -ESO Survey: Dynamical analysis of the L1688 region in Ophiuchus
in Astronomy & Astrophysics
Viaene S
(2016)
The bolometric and UV attenuation in normal spiral galaxies of the Herschel Reference Survey
in Astronomy & Astrophysics
De Looze I
(2014)
High-resolution, 3D radiative transfer modeling I. The grand-design spiral galaxy M 51?
in Astronomy & Astrophysics
Facchini S
(2016)
Violent environment of the inner disk of RW Aurigae A probed by the 2010 and 2015 dimming events
in Astronomy & Astrophysics
Antoja T
(2014)
Constraints on the Galactic bar from the Hercules stream as traced with RAVE across the Galaxy
in Astronomy & Astrophysics
Gazzano J
(2013)
Characterisation of the Galactic thin disc with CoRoT targets
in Astronomy & Astrophysics
Mackey J
(2016)
Detecting stellar-wind bubbles through infrared arcs in H ii regions
in Astronomy & Astrophysics
Rojas-Arriagada A.
(2016)
The Gaia-ESO Survey: Separating disk chemical substructures with cluster models. Evidence of a separate evolution in the metal-poor thin disk
in Astronomy and Astrophysics
Krawczynski H
(2016)
X-ray polarimetry with the Polarization Spectroscopic Telescope Array (PolSTAR)
in Astroparticle Physics
Norris John E.
(2013)
THE MOST METAL-POOR STARS. IV. THE TWO POPULATIONS WITH [Fe/H] ?-3.0
in ASTROPHYSICAL JOURNAL
Veras D
(2012)
Planetary orbital equations in externally-perturbed systems: position and velocity-dependent forces
in Celestial Mechanics and Dynamical Astronomy
Soffitta P
(2013)
XIPE: the X-ray imaging polarimetry explorer
in Experimental Astronomy
Ishibashi W.
(2016)
The connection between AGN-driven dusty outflows and the surrounding environment
in Mon.Not.Roy.Astron.Soc.
Karl S
(2013)
Constrained simulations of the Antennae galaxies: comparison with Herschel-PACS observations?
in Monthly Notices of the Royal Astronomical Society
Katz H
(2015)
Seeding high-redshift QSOs by collisional runaway in primordial star clusters
in Monthly Notices of the Royal Astronomical Society
Middleton M
(2015)
Diagnosing the accretion flow in ultraluminous X-ray sources using soft X-ray atomic features
in Monthly Notices of the Royal Astronomical Society
Choudhury T
(2015)
Lyman a emitters gone missing: evidence for late reionization?
in Monthly Notices of the Royal Astronomical Society
Haworth T
(2015)
On the relative importance of different microphysics on the D-type expansion of galactic H ii regions
in Monthly Notices of the Royal Astronomical Society
Erkal D
(2016)
Stray, swing and scatter: angular momentum evolution of orbits and streams in aspherical potentials
in Monthly Notices of the Royal Astronomical Society
Chiang C
(2013)
Confirmation of the nature of the absorber in IRAS 09104+4109
in Monthly Notices of the Royal Astronomical Society
Gallo L
(2013)
1ES 1927+654: a bare Seyfert 2
in Monthly Notices of the Royal Astronomical Society
Collett T
(2013)
Reconstructing the lensing mass in the Universe from photometric catalogue data
in Monthly Notices of the Royal Astronomical Society
Cook D
(2014)
Spitzer Local Volume Legacy (LVL) SEDs and physical properties
in Monthly Notices of the Royal Astronomical Society
Jeffreson S
(2017)
The Gaia-ESO Survey: dynamical models of flattened, rotating globular clusters
in Monthly Notices of the Royal Astronomical Society
Gallo L
(2015)
Suzaku observations of Mrk 335: confronting partial covering and relativistic reflection
in Monthly Notices of the Royal Astronomical Society
Richardson C
(2014)
Interpreting the ionization sequence in AGN emission-line spectra
in Monthly Notices of the Royal Astronomical Society
Fabian A
(2013)
Long XMM observation of the narrow-line Seyfert 1 galaxy IRAS 13224-3809: rapid variability, high spin and a soft lag
in Monthly Notices of the Royal Astronomical Society
Matt G
(2014)
The soft-X-ray emission of Ark 120. XMM-Newton, NuSTAR, and the importance of taking the broad view
in Monthly Notices of the Royal Astronomical Society
Walker S
(2013)
X-ray exploration of the outskirts of the nearby Centaurus cluster using Suzaku and Chandra
in Monthly Notices of the Royal Astronomical Society
Ishibashi W
(2013)
Can AGN feedback-driven star formation explain the size evolution of massive galaxies?
in Monthly Notices of the Royal Astronomical Society
Kara E
(2015)
Iron K and Compton hump reverberation in SWIFT J2127.4+5654 and NGC 1365 revealed by NuSTAR and XMM-Newton
in Monthly Notices of the Royal Astronomical Society
Panagoulia E
(2015)
A volume-limited sample of X-ray galaxy groups and clusters - III. Central abundance drops
in Monthly Notices of the Royal Astronomical Society
De Marco B
(2013)
Discovery of a relation between black hole mass and soft X-ray time lags in active galactic nuclei
in Monthly Notices of the Royal Astronomical Society
Robertson D
(2015)
Searching for correlations in simultaneous X-ray and UV emission in the narrow-line Seyfert 1 galaxy 1H 0707-495
in Monthly Notices of the Royal Astronomical Society
Facchini S
(2016)
External photoevaporation of protoplanetary discs in sparse stellar groups: the impact of dust growth
in Monthly Notices of the Royal Astronomical Society
Hattori K
(2015)
Vertical kinematics of the thick disc at 4.5 ? R ? 9.5 kpc
in Monthly Notices of the Royal Astronomical Society
Bisbas T
(2015)
torus-3dpdr: a self-consistent code treating three-dimensional photoionization and photodissociation regions
in Monthly Notices of the Royal Astronomical Society
Vasudevan R
(2013)
Three active galactic nuclei close to the effective Eddington limit for dusty gas
in Monthly Notices of the Royal Astronomical Society
Watkins L
(2013)
A census of orbital properties of the M31 satellites
in Monthly Notices of the Royal Astronomical Society
Boneberg D
(2016)
Determining the mid-plane conditions of circumstellar discs using gas and dust modelling: a study of HD 163296
in Monthly Notices of the Royal Astronomical Society
Banerji M
(2017)
The discovery of gas-rich, dusty starbursts in luminous reddened quasars at z ~ 2.5 with ALMA
in Monthly Notices of the Royal Astronomical Society
Saro A
(2015)
Constraints on the richness-mass relation and the optical-SZE positional offset distribution for SZE-selected clusters
in Monthly Notices of the Royal Astronomical Society
Brewer B
(2014)
The SWELLS survey - VI. Hierarchical inference of the initial mass functions of bulges and discs
in Monthly Notices of the Royal Astronomical Society
Kara E
(2015)
The Compton hump and variable blue wing in the extreme low-flux NuSTAR observations of 1H0707-495
in Monthly Notices of the Royal Astronomical Society
Katz H
(2019)
Tracing the sources of reionization in cosmological radiation hydrodynamics simulations
in Monthly Notices of the Royal Astronomical Society
Young M
(2016)
Quantification of stochastic fragmentation of self-gravitating discs
in Monthly Notices of the Royal Astronomical Society
Campbell H
(2016)
How SN Ia host-galaxy properties affect cosmological parameters
in Monthly Notices of the Royal Astronomical Society
Agnello A
(2015)
Discovery of two gravitationally lensed quasars in the Dark Energy Survey
in Monthly Notices of the Royal Astronomical Society
Dai F
(2015)
A tidal encounter caught in the act: modelling a star-disc fly-by in the young RW Aurigae system
in Monthly Notices of the Royal Astronomical Society