The Engineer Who Pins Down the Particles at the LHC
The Large Hadron Collider has transformed our understanding of physics since it began operating in 2008, enabling researchers to investigate the fundamental building blocks of the universe. Some 100 meters below the border between France and Switzerland, particles accelerate along the LHC's 27-kilometer circumference, nearly reaching the speed of light before smashing together.
The LHC is often described as the biggest machine ever built. And while the physicists who carry out experiments at the facility tend to garner most of the attention, it takes hundreds of engineers and technicians to keep the LHC running. One such engineer is Irene Degl'Innocenti, who works in digital electronics at the European Organization for Nuclear Research (CERN), which operates the LHC. As a member of CERN's beam instrumentation group, Degl'Innocenti creates custom electronics that measure the position of the particle beams as they travel.
Irene Degl'InnocentiEmployer:
CERN
Occupation:
Digital electronics engineer
Education:
Bachelor's and master's degrees in electrical engineering; Ph.D. in electrical, electronics, and communications engineering, University of Pisa, in Italy
It's a huge machine that does very challenging things, so the amount of expertise needed is vast," Degl'Innocenti says.
The electronics she works on make up only a tiny part of the overall operation, something Degl'Innocenti is keenly aware of when she descends into the LHC's cavernous tunnels to install or test her equipment. But she gets great satisfaction from working on such an important endeavor.
You're part of something that is very huge," she says. You feel part of this big community trying to understand what is actually going on in the universe, and that is very fascinating."
Opportunities to Work in High-energy PhysicsGrowing up in Italy, Degl'Innocenti wanted to be a novelist. Throughout high school she leaned toward the humanities, but she had a natural affinity for math, thanks in part to her mother, who is a science teacher.
I'm a very analytical person, and that has always been part of my mind-set, but I just didn't find math charming when I was little," Degl'Innocenti says. It took a while to realize the opportunities it could open up."
She started exploring electronics around age 17 because it seemed like the most direct way to translate her logical, mathematical way of thinking into a career. In 2011, she enrolled in the University of Pisa, in Italy, earning a bachelor's degree in electrical engineering in 2014 and staying on to earn a master's degree in the same subject.
At the time, Degl'Innocenti had no idea there were opportunities for engineers to work in high-energy physics. But she learned that a fellow student had attended a summer internship at Fermilab, the participle physics and accelerator laboratory in Batavia, Ill. So she applied for and won an internship there in 2015. Since Fermilab and CERN closely collaborate, she was able to help design a data-processing board for LHC's Compact Muon Solenoid experiment.
Next she looked for an internship closer to home and discovered CERN's technical student program, which allows students to work on a project over the course of a year. Working in the beam-instrumentation group, Degl'Innocenti designed a digital-acquisition system that became the basis for her master's thesis.
Measuring the Position of Particle BeamsAfter receiving her master's in 2017, Degl'Innocenti went on to pursue a Ph.D., also at the University of Pisa. She conducted her research at CERN's beam-position section, which builds equipment to measure the position of particle beams within CERN's accelerator complex. The LHC has roughly 1,000 monitors spaced around the accelerator ring. Each monitor typically consists of two pairs of sensors positioned on opposite sides of the accelerator pipe, and it is possible to measure the beam's horizontal and vertical positions by comparing the strength of the signal at each sensor.
The underlying concept is simple, Degl'Innocenti says, but these measurements must be precise. Bunches of particles pass through the monitors every 25 nanoseconds, and their position must be tracked to within 50 micrometers.
We start developing a system years in advance, and then it has to work for a couple of decades."
Most of the signal processing is normally done in analog, but during her Ph.D., she focused on shifting as much of this work as possible to the digital domain because analog circuits are finicky, she says. They need to be precisely calibrated, and their accuracy tends to drift over time or when temperatures fluctuate.
It's complex to maintain," she says. It becomes particularly tricky when you have 1,000 monitors, and they are located in an accelerator 100 meters underground."
Information is lost when analog is converted to digital, however, so Degl'Innocenti analyzed the performance of the latest analog-to-digital converters (ADCs) and investigated their effect on position measurements.
Designing Beam-Monitor ElectronicsAfter completing her Ph.D. in electrical, electronics, and communications engineering in 2021, Degl'Innocenti joined CERN as a senior postdoctoral fellow. Two years later, she became a full-time employee there, applying the results of her research to developing new hardware. She's currently designing a new beam-position monitor for the High-Luminosity upgrade to the LHC, expected to be completed in 2028. This new system will likely use a system-on-chip to house most of the electronics, including several ADCs and a field-programmable gate array (FPGA) that Degl'Innocenti will program to run a new digital signal-processing algorithm.
She's part of a team of just 15 who handle design, implementation, and ongoing maintenance of CERN's beam-position monitors. So she works closely with the engineers who design sensors and software for those instruments and the physicists who operate the accelerator and set the instruments' requirements.
We start developing a system years in advance, and then it has to work for a couple of decades," Degl'Innocenti says.
Opportunities in High-Energy PhysicsHigh-energy physics has a variety of interesting opportunities for engineers, Degl'Innocenti says, including high-precision electronics, vacuum systems, and cryogenics.
The machines are very large and very complex, but we are looking at very small things," she says. There are a lot of big numbers involved both at the large scale and also when it comes to precision on the small scale."
FPGA design skills are in high demand at all kinds of research facilities, and embedded systems are also becoming more important, Degl'Innocenti says. The key is keeping an open mind about where to apply your engineering knowledge, she says. She never thought there would be opportunities for people with her skill set at CERN.
Always check what technologies are being used," she advises. Don't limit yourself by assuming that working somewhere would not be possible."
This article appears in the August 2024 print issue as Irene Degl'Innocenti."