Following a funding announcement by the UK government in 2011 the team, led by ISIS project scientist Dr Chris Frost, developed ChipIR , the latest facility built at the UK’s Science and Technology Facilities Council (STFC) ISIS neutron source. It is designed to look at how silicon microchips respond to cosmic neutron radiation, with consequent benefits for the electronics industry.
Cosmic rays hitting the Earth’s atmosphere generate showers of particles including high energy neutrons. These are an invisible threat that can disrupt the normal operation of electronic systems.
University, Science and Cities Minister, Greg Clark, said:
“The Government understands how vital it is to innovate and tackle the challenges that face our electronics industry. This funding is helping to develop a facility capable of putting safety critical circuits through their paces, making planes safer and the electronics on which we all depend more reliable.”
The STFC team has found ways to trace a pencil beam of neutrons over a chip, or flood a rack of electronics with neutrons, enabling them to pinpoint vulnerable areas or testing whole systems in operational conditions.
Dr Chris Frost, ChipIR project scientist at ISIS,said:
“In building ChipIR at ISIS we have created a test facility that will allow the electronics industry to rapidly assess the vulnerabilities of their devices. We can mimic the cosmic rays’ neutrons and, by putting an electronic device into their path, we can work out why that piece of electronics is being disrupted.”
ChipIR will dramatically increase the speed of electronics testing and provide Europe's gold standard for screening microchips. In a single hour, ISIS will be able to replicate the effects of exposing microchips to high-energy neutrons over 100 years of flying time.
Chris Frost added:
“The electronics industry, ranging from aviation and automotive to communication and the internet, will use ChipIR to pinpoint problems and to find the most cost effective and robust solutions to keep making electronic systems that are reliable and robust, as they become more complex, smaller and faster.”
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Notes for editors
The ISIS pulsed neutron and muon source at the Rutherford Appleton Laboratory in Oxfordshire is a world-leading centre for research in the physical and life sciences. It is owned and operated by the Science and Technology Facilities Council.
ISIS produces beams of neutrons and muons that allow scientists to study materials at the atomic level using a suite of instruments, often described as ‘super-microscopes’. It supports a national and international community of more than 2000 scientists who use neutrons and muons for research in physics, chemistry, materials science, geology, engineering and biology. It is the most productive research centre of its type in the world.