Gordon Hopkinson, from SSTL's Optical Payloads Group was a physicist who made a notable contribution to the development of today’s space imaging systems

Gordon Hopkinson was one of the world’s experts in the physics of optical detectors used in a wide range of applications from digital cameras through to international space missions and even mobile phones. For three decades he was involved in detailed analysis and modelling of solid state cameras and contributed significantly to the research of their use in a wide range of applications from X-ray mammography, the mapping of the stars to the search for dark matter.

His ability to undertake detailed measurements, identify new phenomena and develop the underlying mathematical models was second to none. Gordon was also a very kind person, modest and with a high standard of integrity. He will be sorely missed by friends and colleagues both within the UK and across the world.

Hopkinson began his research at Manchester University with spells at Durham and Leicester undertaking research into astronomy, such as spectral investigations of comets and observations of zodiacal dust. His move to Leicester coincided with the emergence of the new and revolutionary solid state detectors based on silicon chips, known as Charge Coupled Devices (the heart of today’s digital cameras). The first of these were developed in the UK in 1972 by EEV (subsequently known as e2v). The Charge Coupled Devices (CCD) would replace the previous bulky vacuum tube detectors and eventually give rise to the demise of photographic film.

At Leicester University Hopkinson developed ground breaking techniques for achieving low noise performance from CCDs and together with David Lumb wrote the definitive paper on the subject. These techniques were subsequently applied to the new breed of space imaging missions and are still used to this day. He has several publications in this field and numerous citations. The research that Hopkinson undertook at Leicester would shape his professional life.

In 1983 Hopkinson moved to the Sira research and development organisation in Kent and immediately found that his expertise in CCDs was essential to fully exploit the capabilities of these devices in a range of new and highly demanding space instrumentation. Hopkinson’s first task was to support the development of the state of the art star trackers and a star mapper for a X-ray satellite mission called ROSAT, funded by the German Space Agency and launched in 1990. The ROSAT mission undertook an all-sky survey of x-ray emitting objects and led to a detailed morphology of supernova remnants and clusters of galaxies. ROSAT operated until 1999. Similar applications soon arose in the use of CCDs for first inter-satellite laser communications system (SILEX), oceanographic monitoring (MERIS) and the measurement of ozone from space (GOMOS), all of which are still in operation today providing invaluable information and capabilities to the European science community.

Hopkinson’s key expertise was not only in achieving high performance from solid state detectors but also analysing the complex effects arising from the harsh space radiation environment of protons and gamma rays. This was a special interest that led to international recognition. Of particular note was a request by the European Space Agency (ESA) for Hopkinson to undertake detailed radiation analysis on a new but highly demanding astrometric mission called GAIA. This mission aims to create the largest and most precise three dimensional chart of our Galaxy taking measurements of about one billion stars.

Hopkinson was a recognised international authority in his field of research and has published many papers, participated by invitation in NASA, ESA and Japanese working groups and acted as chairman at many international conferences. He not only received many credits for his work but through his considerable reputation and expertise sat on the Awards Committee of the Institute of Electrical & Electronic Engineers (IEEE).

Hopkinson moved with the Sira Space Group to Surrey Satellite Technology Ltd in 2006, the world leading small satellite manufacturer, and set up new facilities to continue his work. This has included continued research into detectors for space missions such as Solar Orbiter, to produce images of the Sun at an unprecedented resolution, EarthCARE, a joint European-Japanese mission addressing the need for a better understanding of the Earth’s climate, and EUCLID, with the primary goal to map and characterise the geometry of the dark universe, a feature of considerable interest to the science community.

Gordon Robert Hopkinson was born in 1952, the only child of Jessie and Alan and brought up in Nottingham. He was educated at Forest Fields Grammar School, Nottingham and went onto read Physics at Manchester University graduating with first-class honours in 1973, he then undertook a PhD graduating in 1977.

Gordon loved barbeques, walking, history, crosswords and real ale. Most family holidays involved incorporating as many of these as possible. Top of the list were camping holidays in France with barbeques every night and walking holidays in Derbyshire, where the route would be planned according to the beer.

He is survived by his wife, Jacqui, whom he married in 1980 and by their two daughters and son.

Gordon Hopkinson, detector physicist, was born on July 4th 1952. He died on September 12th 2010, aged 58.

SSTL is a proud sponsor of the 61st International Astronautical Congress (IAC) 2010 that takes place in next week Prague (27th September – 1st October).

Founded by Sir Martin Sweeting, the British small satellite pioneer will celebrate its 25 year heritage of launching unparalleled value satellite missions and unveil new Earth observation capabilities for the first time at the exhibition. SSTL will also actively participate in the conference programme, presenting seven technical papers on diverse subjects ranging from space navigation and optical payloads to small satellite design and operation.

Visit SSTL on stand A5 to explore new Earth Observation capabilities for very high-resolution imaging, daily global imaging systems and new models for capacity leasing. Exhibits will also explain how SSTL’s EO capabilities are changing the way private companies and governments procure and utilise geospatial information to manage the world’s resources and security.

In celebration of its 25th anniversary, SSTL will put its unique heritage of cost effective value engineering on display - from its academic roots and exciting recent advances to its roadmap for future developments.

The IAC is the most established space conference in the space industry’s calendar, bringing together space experts from around the world for debate and discussion. SSTL’s Zeger de Groot will present a paper on in-orbit results from the high capacity 22m UK-DMC2 satellite and Joost Elstak will present a paper entitled “A million square kilometre satellite for Kazakhstan”. Martin Unwin and Mike Cutter will present papers on the SQR-ReSI instrument that uses GNSS signals for remote sensing and Phil Davies will present papers “Maximising re-use through a modular range of small satellite platforms” and “Rapid development of navigation payloads for Galileo Full Operational Capability”.

Visit www.sstl.co.uk/iac2010 for details.

Space Blog caught up with Kathryn Graham, leader of SSTL’s Mission Concepts team last week –a rare and exciting opportunity to get inside the “innovation engine” and find out where new ideas are put to the test.

Kathryn has a degree in Physics with Astrophysics, and a Phd in XRAY Astronomy. Her career began at QINETIQ where she worked for 10 years in Military Space Surveillance. Ironically, her last role before joining SSTL was as the image processing engineer for the TopSat mission – a high resolution small satellite technology demonstration that SSTL built for the TopSat consortium. In fact, she processed the first images downloaded from TopSat in 2005.

Kathryn has been part of SSTL for 3 years, migrating from its Mission Systems team to head up Mission Concepts. During this time, one of the highlights was completing a study exploring utilisation of DMC type missions within ESA’s landmark GMES programme.

Ignoring any official job title, I was the ‘Feasibility study person’ at that time and I found the GMES study very interesting. My hard work was well received by ESA – which I found very rewarding.

Kathryn said that she finds her role at SSTL hard work like any job, but also exciting, commenting:

I work in a company that launches satellites for God’s sake – how many people can say that!

Kathryn also said that she found the company culture very welcoming:

People feel that they matter – and everyone pulls together as a team.

Of course, it’s not all stardust and rocketry. Kathryn draws upon her background to analyse desk research, reports and feasibility studies. She commented: “I’m a scientist and in my job I attend conferences, review current missions and perform feasibility studies – we’re also lucky to have a number of experts in-house that I regularly call upon for views.”

Mission Concepts

Mission Concepts considers concepts for their scientific, technological and commercial merits and feasibility – as opposed to the Mission Systems unit which deals with projects that are close to mission sign up. It is a special dedicated team for research which ultimately belongs to the Engineering department of SSTL.

Of course at SSTL a concept isn’t just a pipe dream. In a culture of innovation, the right idea can become a full-blown development program within months using proven “off-the-shelf” satellite platforms. Mission Concepts identifies trends, new technologies and applications in space and assesses their feasibility.

For example, Mission Concepts conducted an altimeter constellation feasibility study for ESA and also contributed to work for the Sentinel 5 Precursor programme. Mission Concepts also helps customers to define the requirements for their space programme or mission. Last but not least, the team asks itself questions like “What’s the next Disaster Monitoring Constellation?” This is a highly successful Earth Observation constellation that is not only sustainable but also expanding, providing rapid and global Earth observation – but started with an innovative vision combining new technologies with an unprecedented model of International partnership.

No two days are ever the same for Mission Concepts so let’s look into a few of the projects that they have been involved with.

Continue reading "Inside Mission Concepts with Kathryn Graham"

SMi and SSTL have teamed up to organise a conference "The Increasing Potential of Small Satellites" which will take place at the Surrey Research Park in Guildford this December. The event follows on from the sell-out of The Potential of Small Satellites Masterclass in 2009. Register for a comprehensive survey of both the current and future technologies involved in small satellite design, and also the current and future applications to which those technologies can be applied.

SSTL's Internationally renowned Military space expert Dr. Stuart Eves will lead a Masterclass that combines presentations, discussions and interactive learning offering delegates:

• An understanding of the current potential of small satellites and an insight into their future capabilities.


• Insight into the field of small satellite engineering, since system design, satellite technology and data processing applications.


• A chance to see some of the world’s latest small satellite technology “in the flesh”.

Delegates will spend a full day at the SSTL headquarters on the Surrey Research Park in Guildford, with the opportunity to see SSTL’s ground control facilities and satellite assembly facilities.

Satellites are changing the way we live, and small satellites are at the forefront of this revolution. This makes the conference relevant to any organisation with an interest in communications, remote sensing, navigation, and high-technology scientific investigation. You'll be in good company - last year's attendees included US Army, Canadian Space Agency, Verhaert Space, Netherlands Space Office, European Space Agency, Thales Alenia Space, Logica, Ordnance Survey, CNES and Tesat-Spacecom.

To find out more about this conference visit SMi: The Increasing Potential of Small Satellites