Mullard Space Science Laboratory


The UCL Mullard Space Science Laboratory is the United Kingdom's largest university space research group. MSSL is part of the Department of Space and Climate Physics at University College London, one of the first universities in the world to conduct space research. Since its establishment, MSSL has participated in 35 satellite missions, 10 of which are currently in operation, and in over 200 sounding rocket experiments.
It takes its name from Mullard Limited, and is located in Holmbury St Mary in the Surrey Hills AONB, near the town of Dorking in the county of Surrey, England.

History

In 1957 Sir Harrie Massey of UCL directed the first Skylark rocket experiments. In 1962 Massey led a team from UCL, Imperial College London, the University of Birmingham and the University of Leicester that developed many of the instruments on Ariel 1, the world's first multinational spacecraft. By 1966 the demands had outgrown the laboratory space available in London and Massey asked his colleague Robert Boyd to set up a laboratory, with generous funding from the British electronics company Mullard which had helped to set up the Mullard Radio Astronomy Observatory at the University of Cambridge.
At that time, Boyd was the leading British researcher in space science. Joint funding from Mullard and UCL led to the expansion of his research programme and resulted in the creation of the Mullard Space Science Laboratory in 1966. Dedicated premises were selected near Dorking, Surrey in an oak-panelled house at Holmbury St. Mary, set in beautiful grounds, where the laboratory has been based ever since.
By this time the UCL group had been involved in providing instrumentation for over 100 rocket launches, mainly from the Woomera Test Range in Australia, but with the recent founding of the European Space Research Organisation, with Massey as chairman, they were increasing involved with European as well as American projects. They produced the electron spectrometer for NASA's Cassini mission, the spectrometer for ESA's Herschel Space Observatory and the UV/Optical Telescope for the Swift Gamma Ray Burst Explorer.

MSSL Research Groups

Scientific research groups at MSSL are split into two primary areas: Astrophysics, and Solar System groups, complemented by the Instrumentation/Technology Innovation groups that work on space hardware.

Astrophysics

In synergy with space science missions, members of the astrophysics group actively work on a wide range of astronomy and astrophysics topics.

Solar System

Using data from spacecraft throughout the solar system, MSSL's solar system groups carry out research into the Sun, Earth and planetary bodies.

Climate Extremes

The group's main foci are the prediction and monitoring of worldwide weather and climate extremes.

Planetary Science

This group's science themes are planetary magnetospheres, moon interactions, surfaces and comets studying planetary systems across the Solar System and beyond.

Solar Physics

The group works on several solar physics hardware projects, mostly relating to fabricating instruments that work at ultra-violet and X-ray wavelengths, and studying the data that they return.

Space Plasma Physics

This research group studies the physical interaction between the Earth and the Sun and the fundamental physics of space plasmas

Imaging

Developing enabling imaging technologies and corresponding datasets to allow new scientific understanding with applications centred on space and climate physics.

Instrumentation/Technology Innovation

New technologies and advances in instrumentation through research enable the design and build of scientific space instruments.

MSSL Facilities

Solar UK Research Facility (SURF)

As a part of the research undertaken within the Solar & Stellar Physics group, SURF collaborates with Yohkoh, SOHO/CDS, and TRACE to produce CHIANTI The CHIANTI package is freely available to all researchers subject to the condition of proper acknowledgement in all resulting publications.

The Grid

The European Grid of Solar Observations is a project funded by the European Commission under its Fifth Framework Programme. EGSO uses Grid technology to create the fabric of a virtual solar observatory. MSSL is involved in three components of the Grid.
TMG offers research facilities and consultancy to support the development, management and exploitation of technology within an enterprise context through two main centres.

Smart Optics

The Smart Optics Faraday Partnership is an active network of more than 100 businesses and academic groups with the common aim of generating new enabling optical technologies and successfully applying them commercially in a diverse range of markets. Smart Optics working on such products as the Smart Ophthalmoscope, illuminated retail signage, and ultra precision surfaces. Faraday Partnerships are intended to promote improved interaction between UK research institutions and industry.

Test facilities

The MSSL Mechanical engineering group operates a number of test facilities which include a vacuum bakeout facility, thermal vacuum facility, a vibration facility, a cleanroom facility, Laser and Sputter coating facility, a Westbond wire bonding facility, ultrasonic cleaning facilities, and a mechanical engineering workshop.

MSSL participation in space missions

Since it was formed, the MSSL has worked on a number of different solar physics hardware projects. Its earliest involvement came with an experiment on Ariel 1 that made the first spectroscopic X-ray observations of solar flares. Other instruments were later flown on the OSO-4, ESRO-II, OSO-5, and OSO-6 missions. Instruments built have also flown on the Solar Maximum Mission, the Coronal Helium Abundance Spacelab Experiment which was part of the Spacelab-2 missions. More recently, MSSL has played a significant role in the Swift mission. MSSL engineers participated in building and testing the Ultraviolet Optical Telescope instrument on Swift.
MSSL has participated in the Hinode and STEREO missions. For Hinode, MSSL led a consortium building the EUV Imaging Spectrometer which provides plasma diagnostic in the solar chromosphere, transition region and corona.

Collaborative agencies