Scientists at the Fermi National Accelerator Laboratory (Fermilab) are working on research projects that aim to answer fundamental physics questions. How did the universe begin? What are dark matter and dark energy? What is the mass hierarchy of neutrinos? Are there other undiscovered particles beyond the currently known Standard Model of Particle Physics?
To address these questions, Fermilab – the premier high-energy particle physics laboratory in the United States – operates some of the world’s most advanced particle accelerators. Fermilab’s 6,800-acre facility is located in Batavia, IL, and its particle accelerator chain – with a total length of more than ten miles – resides in tunnels 25 feet or more below ground.
Recently, Fermilab has left its history as a collider physics laboratory behind and transitioned into the world’s highest intensity neutrino facility in support of international research into particles called neutrinos. In order to create the lab’s particle beam, a large number of protons must be accelerated to very high energies. The charged protons are guided by powerful magnets on a circular path before striking a graphite target, which generates secondary particles. These particles decay into neutrinos and other short-lived by-products.
When upgraded for the Deep Underground Neutrino Experiment (DUNE), Fermilab’s accelerator complex will deliver 1.2 MW of proton beam power to a graphite target at an energy of 120 GeV, creating the world’s highest-intensity neutrino beam. That beam will travel 800 miles through the earth to a detector filled with liquid argon, located at the Sanford Underground Research Facility in South Dakota.
The alignment of the magnets is critical for the optimal operation of the facility. Fermilab uses API Radian Laser Trackers during the installation and routine maintenance to position and inspect the dimensional integrity of the magnets in the tunnel. (See Fig. to the right showing Main Injector tunnel.) A maintenance period can last up to three months and requires using laser trackers to facilitate a speedy alignment process. Fermilab requires the laser interferometer technology, as integrated into the laser tracker for precision distance measurements, to comply with the National Institutes of Technology Standard (NIST).
The API Radian Laser Trackers are also used to lay the foundation for the alignment of the magnets in the form of a large-scale control network throughout the accelerator tunnel infrastructure. These reference points allow the end user to relocate the tracker anywhere within the tight tunnel enclosure while maintaining a connection to the global control network. The API Radian produces the best results in the range of 0 to 30m, corresponding to the visible line of sight in many of the accelerator enclosures.
In addition, the API Radian is one of the most compact and least heavy instruments available. In many cases tunnel enclosures are only accessible through long and steep stairwells, so the equipment has to be hand-carried safely to the work site. Laser trackers are now commonly used at accelerator facilities around the world.
Locating “Radiation Hot Spots” in the Vacuum Tube
Fermilab already generates the most intense beam of neutrinos in the world, but the upcoming DUNE experiment will require a greater increase in beam power. This necessitates the upgrade of specific sections of the accelerator’s vacuum system. The existing vacuum infrastructure is not able to accommodate the increased beam size, and limits the machine operation. This puts a much higher demand on alignment requirements for the vacuum pipes, which do not have reference markers and can only be determined by feature measurements.
Fermilab recently purchased an API wireless I-Probe and I-Scan II to support the feature measurement process of beam pipes. The I-Probe/I-Scan II combo allows the teams to measure hidden points on the pipe and acquire a pipe cross-section with many data points in a very short time. This reduces the amount of time that alignment crews may be exposed to higher radiation levels in these areas. These accessories allow the users to navigate in tight spaces within the tunnel that they couldn’t access with just the API Radian and an SMR.
The backbone for most of the Fermilab alignment work is based on laser trackers, and Fermilab has been using the API Radian. With the recent acquisition of the I-Probe/I-Scan II, Fermilab enhanced their capabilities in the area of contactless measurements.
About Automated Precision Inc.
For over 30 years, Automated Precision Inc. (API) has used advanced metrology to develop customized solutions for the world’s leading companies like Boeing, Lockheed Martin, Northrop Grumman, Voith Hydro, Duke Energy, Ford and many others. API offers a unique mix of innovative engineering capabilities, superior product quality and outstanding customer service to help improve your business and bottom line. API’s award-winning products (Radian Laser Tracker, Omnitrac 2 Laser Tracker, XD Laser, Swivel Check, Active Target, Spindle Analyzer, Ball Bar and SMRs) are manufactured in the United States and are used by many of the world’s leading automotive, aerospace, shipbuilding, machine tool, and energy companies.
Fermilab is managed by the Fermi Research Alliance LLC for the U.S. Department of Energy. FRA is a partnership of the University of Chicago and Universities Research Association Inc., a consortium of 89 research universities. Fermilab is America’s particle physics and accelerator laboratory. Our vision is to solve the mysteries of matter, energy, space and time for the benefit of all. We strive to:
- lead the world in neutrino science with particle accelerators
- lead the nation in the development of particle colliders and their use for scientific discovery
- advance particle physics through measurements of the cosmos
Our mission is to drive discovery by:
- building and operating world-leading accelerator and detector facilities
- performing pioneering research with national and global partners
- developing new technologies for science that support U.S. industrial competitiveness
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