Research

The Astrophysics Group carries out a wide range of research activitiesˆàand projects, with particular emphasis on the fields of optical interferometry, the cosmic microwave background (CMB) radiation, galaxy evolution, star formation and expolanets. There is an increasing theoretical component in the work of the AP Group, both in terms of fundamental physics (in application to relativity and cosmology), gravitational physics, and as modelling and simulation assume more prominent roles in the areas of cosmology and astrophysics.ˆàOur activities in these areas embrace the confrontation between observation and theory and the development of instrumentation and technology, such as cm-wave technology and big data/exascale astronomy, where the group is taking a leading role within the SKA telescope project.

For observational work we use a wide range of facilities worldwide in addition to those we have been involved in building. Locally we operate the Mullard RadioˆàAstronomy Observatory a few miles outside Cambridge, where we have developed world-class telescopes including the Ryle Telescope, the Cambridge Optical Aperture Synthesis Telescope (COAST) and the Very Small Array. The VSA is a telescope for studying the CMB and was developed jointly with Jodrell Bank and the IAC Tenerife (where it is now located). The telescopes at Lord’s Bridge have now been joined by the Arcminute MicroKelvin Imager (AMI), which images the CMB at high resolution. This consists of a Small Array of ten 4-metre telescopes, and a Large Array composed of eight 13-metre dishes of the Ryle Telescope, which have been moved into a new configuration.

If you are interested in doing research in any of the areas described, find out a little more using the links on the left and then visit ourˆàGraduate Research Opportunities web pages.

 

Research Activities

Optical technology

The main focus of our research is the application of the aperture synthesisˆàtechnique at optical wavelengths, in order to produce extremely high resolution images of astronomical objects.

CMB

A significant fraction of the Astrophysics Group is involved in work on the Cosmic Microwave Background, both experimental and theoretical. We are currently operating theˆàArcminute Microkelvin Imager, an arcminute-scale survey telescope, and developing analysis techniques for the Planck satellite.

Galaxy formation and evolution

The two main research interests within the Galaxy Evolution area are the cosmological evolution of star forming galaxies, in particular the physical mechanisms regulating star formation, and secondly the origin and evolution of radio sources and the effect they have on their environment.ˆà There is mounting evidence that these phenomena are in fact closely related.

Star formation

An understanding of the process of star formation is an essential requirement of theories of galaxy formation and evolution, and gives direct insights into the formation of our own Sun and the number of extra-solar planets we expect to find in the Galaxy. We use telescopes operating at millimetre and sub-mm wavelengths to observe the cool molecular clouds which are collapsing to form stars and help understand the basic physics of star formation. The image shows theˆàOrion A molecular cloud, with SCUBA-2 850 micron emission (red) tracing dust lanes which block the optical light observed with HST (blue).

Exoplanets

Our research team focuses on the detection and characterisation of extrasolar planets. We are also involved in the development of new instrumentation.

Theoretical cosmology and gravitational physics

We work on topics in theoretical cosmology and astrophysics, as well as on advanced data analysis methods for cosmology. The active areas of research span inflationary cosmology to novel neural network methods, with a common theme of the confrontation of theoretical predictions with experiment, and the best way to carry this out. Topics addressed include Bayesian Evidence-based comparison of cosmological models and data sets, tests of predictions from modified gravity theories, gravitational wave template detection and analysis, and tests of inflation using data from the Planck Satellite. We also work actively on more theoretical topics involving the construction of modified gravity theories themselves, and the localisation of energy and spin in General Relativity.

Radio cosmology

We have an active research group working on early universe observations at radio wavelengths, a with particular focus on the Epoch of Reionization. We participate in an ongoing project (PAPER: The precision array for probing the Epoch of Reionization) and lead antenna design work for the low frequency array of the Square Kilometre Array.

Big data/exascale astronomy

Projects such as the SKA are exemplars of big data astronomy and exascale computing.

Cm-wave technology

We develop technology for low frequency radio instrumentation; antennas, LNAs, receiving boards, etc. We are currently in charge of the development of antennas for both the SKA-low instrument and the RAPID project.

 

Research Projects

SKA

A further major, and developing, area of the Group’s activity lies in our involvement in the Square Kilometre Array (SKA). This is a worldwide endeavour to create a telescope spanning frequencies from 50ˆàMHz up to at least 10ˆàGHz, with a total collecting area of more than 1 square kilometre, and with the possibility of simultaneous observation of many patches on the sky. Such a telescope would enable fundamental advances in many areas of astrophysics and cosmology. Alongside with our work on SKA we participate in the development of precursor and related telescopes. Currently our group is involved in the development of RAPID, a portable interferometer.

RAPID

PAPER and HERA

Both PAPER and HERA telescopes will explore the cosmic reionization, which corresponds to the epoch in which the first starsˆàand black holes reionize the neutral intergalactic medium (IGM) thatˆàpervades the Universe following recombination, within a few hundredˆàmillion years of the Big Bang. The epoch of reionization, and theˆàpreceding ‘dark ages’ prior to the formation of the first stars,ˆàrepresent the last unexplored phases of cosmic evolution to be testedˆàand explored.

MROI

Our pioneering work in optical interferometry has led to our group being partners in the development and construction of a major new instrument, the Magdalena Ridge Optical Interferometer (MROI) being constructed in New Mexico.

Planck

Data analysis in the CMB area has become a highly-developed subject in its own right – jointly with the Institute of Astronomy, we are a designated centre for scientific analysis f data from the Planck Surveyor satellite.

ALMA

We are strongly involved in the Atacama Large Millimetre Array (ALMA) – a worldwide collaborative project to build a high-resolution millimetre-wave telescope in Chile.

JWST

We are involved in the definition, optimisation and scientific exploitation of ˆàNIRSpec, theˆànear-IR multi-object and IFU spectrometer for the James Webb Space Telescope.

MOONS

We are involved inˆàthe construction and scientific exploitation of MOONS, the next generation near-IR and optical multi-object spectrograph for the Very Large Telescope.

E-ELT

We are involved in developing the high resolution spectrometer, HIRES, for the European Extremely Large Telescope(E-ELT),ˆà sited on Cerro Armazones in northern Chile.

NGTS

The Next-Generation Transit Survey (NGTS) is a wide-field photometric survey designed to discover transiting Neptune-size and smaller exoplanets around bright stars (magnitude V<13). The NGTS project is a partnership between the University of Cambridge, QueenòÀÙs University Belfast, University of Warwick, University of Leicester, Observatoire de Geneve, DLR (Berlin) and Universidad Catolica de Chile.

CHEOPS

The CHaracterizing ExOPlanet Satellite (CHEOPS) will be the first mission dedicated to search for transits by means of ultrahigh precision photometry on bright stars already known to host planets.The CHEOPS project is a partnership between european team members, including the University of Cambridge.

CAMELS