UK Scientists asked to identify future facility requirements.
30 May 2014 04:33 PM
UK researchers from across a wide range of the
physical and life sciences have until 16 June to provide their views on the
future development of the country’s large scale research
facilities.
The
Research Councils UK (RCUK) survey seeks scientific advice on the future
development of the Central Laser Facility, Diamond Light Source and ISIS
Neutron Source – all located at the Rutherford Appleton Laboratory at
Harwell Oxford.
It
is open to past or current facility users, as well as those scientists who
anticipate using the facilities in the next five years, and will identify how
the academic and business community have used the facilities to date, how they
plan to use them in the future and how they believe the facilities should be
developed to meet future scientific needs.
RCUK Large Facilities Steering Group chair Colin Miles
said: “The three facilities offer unique capabilities to the scientists
in the UK, allowing the academic and research community to conduct world-class
science.”
“It is important that the UK continues to be at
the forefront of scientific excellence and to do that we need to make sure
these resources are best placed to meet the needs of researchers. By taking
part in this survey scientists can help make sure this happens and influence
the development of these crucial facilities. We are encouraging as many
researchers as possible to take part.”
Located at the Rutherford Appleton Laboratory, at the
Harwell Oxford campus, the facilities provide access for scientists from a very
wide range of research disciplines.
- Central
Laser Facility provides an unparalleled range of state-of-the-art
laser technology. Encompassing compact lasers that can pinpoint individual
particles and high-power installations that can recreate conditions found
inside stars, this unique facility accelerates sub-atomic particles, probes
chemical reactions and delves deep into the biochemical and biophysical
processes that make life possible.
- Diamond produces X-ray, infrared and ultra-violet beams,
to enable scientists and engineers to probe deep into the basic structure of
matter and materials, answering fundamental questions about everything from the
building blocks of life to the origin of our planet. Synchrotron light is an
indispensable tool in many research areas including physics, chemistry,
materials science and crystallography. In addition, synchrotron light is
increasingly being exploited by new communities such as medicine, geological
and environmental studies, structural genomics and
archaeology.
- ISIS uses the technique of neutron scattering to examine
where atoms are and how they are moving. This world-leading centre for research
in the physical and life sciences studies how materials work at the atomic
level enabling us to better understand their every-day properties – and
so make new materials tailor-made for particular uses. ISIS also produces muons
for use in a similar way, providing additional information on how materials
work at the atomic scale.
The
survey is supported by the UK Research Councils (BBSRC, EPSRC, MRC, NERC, STFC)
and the Wellcome Trust.
The
Large Facilities User Survey only takes about 10 minutes to complete and can be
accessed here
Contact: STFC Press Office 0709 298 266