皇家华人

The 拢7 million (鈧�8 million) UK Space Agency funding for the UCL Mullard Space Science Laboratory was announced today as the UK and USA confirm they will be working together to establish an enhanced space weather forecasting system.

Extreme events can be hazardous to astronauts and impact electrical infrastructure, telecommunications systems, aviation and satellite navigation. Due to the potential for disruption and impact on industry, space weather appears on the UK National Risk Register.

The Sun is always emitting magnetised plasma called the 鈥榮olar wind鈥�. While conditions are often benign, strong solar wind can produce disruptive space weather by disturbing the Earth鈥檚 magnetic field.

More severe space weather can occur when the Sun occasionally discharges large bubbles of magnetised plasma known as coronal mass ejections.

Thanks to funding from the UK Space Agency, allocated through the European Space Agency (ESA), scientists and engineers at 皇家华人 MSSL will develop a cutting edge 鈥榩lasma analyser鈥� which, when placed in deep space, will give early warning of imminent, damaging space weather.

Professor Andrew Fazakerley, Director of the UCL Mullard Space Science Laboratory, said: 鈥淯CL has many years of research experience in the science of space weather and in building instruments with which to study it, most recently through roles in providing both solar and space plasma instruments for ESA鈥檚 upcoming Solar Orbiter mission.

鈥淚 am very pleased that 皇家华人ill be able to build on that experience to provide a solar wind plasma analyser designed to meet the special requirements of dedicated operational space weather monitoring missions.鈥�

The UK Space Agency and ESA will collaborate closely on science, space and ground systems technology with the National Aeronautics and Space Administration (NASA) and National Oceanic and Atmospheric Administration (NOAA) in the United States.

In the next five years, NOAA and ESA with support from the UK are planning to launch two complementary solar monitoring satellites.

The UCL-developed 鈥榩lasma analyser鈥� will fly on ESA鈥檚 L5 space weather monitoring mission to observe solar wind, and the UK Space Agency is working cooperatively with ESA and the United States鈥� NOAA on their complementary L1 space weather monitoring spacecraft.

The solar wind data generated by this instrument, and others at L1, are vital to enable the Met Office Space Weather Operations Centre to issue timely space weather alerts and warnings to assist Critical National Infrastructure operators to effectively mitigate the risk posed by space weather.

Dr Graham Turnock, CEO UK Space Agency said: 鈥淪pace weather has the potential to cause severe disruption to critical satellite and ground-based infrastructure, so it鈥檚 essential that we take steps to mitigate this threat through improving our ability to forecast extreme solar activity.

鈥淭he space weather mission projects our global influence by partnering with Europe and the USA, driving and protecting future UK knowledge and prosperity, and keeping Britain safe and secure from potential impacts of space weather.鈥�

Links

• Professor Andrew Fazakerley's academic profile
• UCL Mathematical & Physical Sciences

Images

• Lagrange mission ()

Source

Media contact

Bex Caygill

Tel:听+44 (0)20 3108 3846

Email: r.caygill [at] ucl.ac.uk