UK scientists are playing a key role in the final stages of the development of a detector designed to solve the most fundamental questions in nuclear physics, such as the origin of the elements in our universe.
The Science and Technology Facilities Council (STFC) has signed a memorandum of understanding (MoU) to fund and support the completion of the Advanced Gamma Tracking Array (AGATA).
AGATA is a major international project, involving over 40 institutions from 12 European countries. It will construct and operate the ultimate gamma ray tracking spectrometer that is a thousand times more sensitive than any previous detector system.
It will produce the most valuable insights yet into the structure of atomic nuclei, with potential applications in many areas, from medical imaging to monitoring the environment.
Atomic nuclei make up most of the visible matter in the universe including unstable nuclei produced by stellar explosions, which can decay in a matter of seconds after forming, into a more stable state.
AGATA can travel to different nuclear research laboratories across Europe, enabling scientists to carry out experiments on extremely powerful beamlines. By accelerating particles and colliding them with stable elements they can produce these elements and study their properties.
AGATA enables them to measure the gamma radiation emitted as they decay, with unprecedented accuracy and efficiency, providing the deepest insights yet into how elements are created.
Currently consisting of almost 60 high-purity germanium crystal detectors, this globe-shaped spectrometer will host 180 detectors once fully formed.
Under the new MoU, STFC will fund and support the continuing growth of AGATA towards its full completion. This includes an STFC grant to fund researchers from:
- University of Liverpool
- University of West of Scotland
- University of York
- STFC’s Daresbury Laboratory.
This is to provide and optimise the detector systems that will analyse the vast amounts of complex data produced.
Meanwhile, scientists, engineers and technicians at STFC’s Daresbury Laboratory have recently completed the build of the specially designed mechanical structure that will hold, guide and support AGATA’s two and a half tonnes of highly fragile germanium detectors.
A major milestone for AGATA, this mechanical structure has now been transported to the Legnaro National Laboratory in Italy, where it is being installed and commissioned for its next experimental campaign.
The social and economic benefits of AGATA are set to be far reaching, including:
- improved medical imaging and diagnosis for the detection of disease and tumours
- portable radiation monitors for bomb detection
- environmental monitoring of radioactive waste.
Professor John Simpson of STFC’s Nuclear Physics Group, and Chairperson of the International Steering Group for AGATA, said:
The University of York’s Professor Mike Bentley, Principal Investigator on the AGATA project added:
Source: UK Research and Innovation.
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