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Proton torpedoes, hyperspace, and the Force – is this science fact or science fiction? Building up on the great success of previous events, hundreds of local high school students, university students and staff came to the University of Liverpool on 20 November 2019 to learn how the world of Star Wars is connected with ongoing accelerator research at the Cockcroft Institute.
Science often follows art, and with Star Wars: The Rise of Skywalker soon to hit the big screens, Professor Carsten Welsch, Head of CI Communications, saw an opportunity to show how discovery science can shape the future.
“Most people would recognise a lightsabre from Star Wars,” says Professor Welsch, “so with the imminent release of The Rise of Skywalker, we thought there would be no better way to share our work in accelerator science than setting it against iconic scenes from the films to highlight its future potential.”
The Physics of Star Wars event took place in the award-winning Central Teaching Laboratory, which was turned into a teaching space from a galaxy far, far away. An engaging lecture by Professor Welsch introduced all participants to the world of Star Wars, whilst a range of Star Wars-themed hands-on experiments that were prepared by CI staff and students gave opportunities to experience accelerator science up-close.
In the very first Star Wars movie, Luke Skywalker uses proton torpedoes to destroy the Death Star – the giant space station that destroys planets. More than 40 years on, science fact has caught up with science fiction. Within our EU-funded Optimisation of Medical Accelerators (OMA) project, accelerator and clinical experts have been exploring ways to better control proton beams to improve cancer treatment. These beams can be used to destroy a tumour hidden deep inside the body. Amongst others, Cockcroft research targets the use of a monitor originally developed for the Large Hadron Collider (LHC) at CERN to characterize the treatment beam without touching it.
Professor Welsch says: “For the students to experience for themselves the problems of controlling a beam you can’t see to hit an invisible target, OMA Fellows have created a Star Wars themed proton mini golf challenge. They experience first-hand that targeting becomes much easier if an advanced detector helps them guide the “beam”, i.e. the mini golf ball.”
Dark Side vs Light Side
Just like the imbalance between the Light Side and the Dark Side, scientists within our Accelerators Validating Antimatter physics (AVA) Marie Skłodowska-Curie innovative training network are trying to solve the question of why there is an imbalance between matter and antimatter in the universe. Why the universe we see today is made entirely out of matter, remains one of the greatest mysteries of modern physics. The event participants learned about how antimatter particles are trapped and prepared for precision experiments via optical and mechanical Paul traps.
They were also shown how particle accelerators are used to produce antimatter in a laboratory environment and how this allows probing the fundamental laws of nature. The AVA Fellows explained how they study the detailed properties of these exotic particles, for example how they react to the gravitational field of the Earth and how they interact with matter particles.
In Star Wars, space ships travel long distances by jumping into Hyperspace. This requires them to undergo extreme acceleration. The Millenium Falcon, the “fastest hunk of junk in the galaxy”, has managed to do the famous Kessel run in under 12 parsecs – but how fast can we really accelerate?
In particle accelerators, the achievable accelerating gradient determines the maximum energy of the beam that can be reached. The most advanced ways of acceleration use plasmas and are studied for example in the EuPRAXIA and AWAKE projects. They aim to increase this gradient by up to a factor of 1,000. This would help reduce the size and costs of future accelerators considerably and this would give access to entirely new medical, security and environmental applications. The computer game Surfatron developed by CI expert Dr Ricardo Torres from the Project TEAM helps understand how charged particles can “ride” the electric field wave and gain energy. Participants had to find the optimum acceleration parameters and were competing for the maximum energy gain.
The Force is in the heart of the Star Wars universe, it “gives the Jedi his powers. It’s an energy field created by all living things. It surrounds us, it penetrates us, it binds the galaxy together” as Obi Wan Kenobi once explained to Luke Skywalker.
Physicists explore the fundamental forces that underpin all processes in the universe. They use accelerators to create and study particles that – in some cases – have not been seen set free since the Big Bang itself, such as the Higgs Boson that was discovered in 2012 by the LHC. The LHC is world’s largest and highest energy accelerator and will soon receive an upgrade, further increasing its discovery potential. A particular challenge is to fully characterize the beam in this record-breaking machine as any currently used technique will no longer work.
CI research targets the development of a gas jet-based beam monitor that can measure the beam’s properties even at top energy. This new diagnostic has been developed in collaboration with CERN and GSI, and tested at the CI. Accelerator science is an area that relies heavily on international collaboration to push the boundaries of knowledge and technologies.
Prof Welsch comments: “As the voice-over of Luke Skywalker says in the latest film trailer, ‘We’ve passed on all we know’, and that’s exactly what we’re hoping our Physics of Star Wars event will do: help inspire the next generation of scientists and researchers to dream about what they might be explaining to others in 40 years’ time!”
This is not an official Disney/Lucasfilm event, but planned, organised and run by Liverpool staff and students. It was supported by STFC through the Cockcroft Institute core grant and a Spark Award. The kind permission of Lucasfilm to use film excerpts as part of the seminar is acknowledged.