Dr Ian Crawford
Honorary Senior Research Associate
Dept of Physics & Astronomy
Faculty of Maths & Physical Sciences
- Joined UCL
- 1st Dec 2012
My research activities mostly lie in the fields of space exploration (especially lunar science and exploration), and the new science of astrobiology (the search for life in the Universe).
Our lunar exploration work includes both the remote sensing of the lunar surface and the laboratory analysis of lunar samples. In the remote sensing area, I was a co-investigator on the D-CIXS instrument (Demonstration of a Compact Imaging X-Ray Spectrometer), which orbited the Moon on ESA's SMART1 spacecraft between 2004 and 2006, and I chair the Science Team for the Chandrayaan-1 X-Ray spectrometer (C1XS) that flew on India's Chandrayaan-1 lunar mission in 2008-9. These instruments were designed to provide compositional information about the lunar surface, and in particular the abundances of magnesium, aluminium and silicon, which will be used to constrain models of lunar evolution.
Our work with lunar samples is mostly aimed at understanding the geological evolution of the lunar crust and mantle, and helps 'ground truth' the remote sensing data obtained from orbit.
In addition to my lunar science interests, I have long-standing interests in astrobiology - the study of the astronomical and planetary context of the origin and evolution of life, and what this tells us about the likely prevalence of life elsewhere in the Universe. In particular, our group is studying 'extreme' environments on Earth, notably in Iceland, which may be analogous to past or present habitable environments on Mars.
I came to planetary science from a career in astronomy, where I conducted studies of the interstellar medium (i.e. the gas and dust between the stars from which new stars and planets ultimately form), and also circumstellar disks of the kind thought to be planetary systems in an early stage of formation.
I have long had an interest in the future of space exploration. I am convinced that space exploration and development will prove to be of central importance for the future of humanity. In 2007 I was a member of the UK Space Exploration Working Group, which recommended increased UK involvement in global space exploration. In addition to its obvious scientific importance, I think an ambitious human space programme will offer significant social and cultural advantages, and these arguments are developed in some detail in the 'space policy' publications listed below (and on the Case for Space web page that I maintain).
I currently teach the following Birkbeck undergraduate modules:
North Cestrian Grammar School., Altrincham; University College London (BSc Astronomy, 1982; PhD Astronomy, 1988); Univ. of Newcastle upon Tyne (MSc Geophysics and Planetary Physics, 1983).
Professor of Planetary Science and Astrobiology, Birkbeck, University of London, since 2012.
FRAS 1984. Royal Soc. Overseas Res. Fellow, Mt Stromlo Observatory, Canberra, 1989; Res. Fellow, UCL, 1990–92; Royal Soc. Overseas Fellow, Anglo-Australian Observatory, Sydney, 1993; Sen. Res. Fellow, UCL, 1994–2002; Lectr, 2003–07, Sen. Lectr, 2007–09, Reader, 2009–12, Prof. 2012-, Birkbeck, Univ. of London. Geophysical Sec., 2007–11, Sen. Sec., 2011–, RAS.
Contributed over 150 papers to scientific and professional journals on astronomy, planetary science, astrobiology and space exploration.
Department of Earth and Planetary Sciences, Birkbeck, University of London, Malet Street, WC1E 7HX
Tel: (020) 3073 8026; email: firstname.lastname@example.org