Fun fact: In 1974, when Fermilab was just starting up construction of the Energy Doubler accelerator — later named the Tevatron — the laboratory made the initial purchase of what would amount to "95 percent of all the niobium-titanium ever produced since the beginning of time" (see Judy Jackson's 1993 Beam Line article "Down to the Wire"). The lion's share of the world's niobium-titanium production went into a machine that scientists would use to probe the origins of the universe. The ambitious scientific mission called for a high-volume order of niobium-titanium — the initial order was for 15,000 pounds — which would end up as components in the Tevatron's 774 superconducting magnets. It was an unprecedented demand for an unprecedented project, and it resulted in the kind of science-driven surge of industrial production that's a testament to the beneficial relationship between fundamental and applied research. The design of the Tevatron drove the commercial production of superconducting wire and cable, creating an industry that would soon push the placement of MRI machines in the world’s hospitals. On Nov. 13, the Institute for Electrical and Electronics Engineers, or IEEE, paid tribute at Fermilab to the technological innovations driven by the Tevatron and awarded the laboratory a prestigious IEEE Milestone Award for the development of the accelerator’s superconducting magnets. An afternoon symposium comprised talks from experts in the field of superconducting materials, particle accelerators and medical imaging, and a panel discussion on the future of superconducting magnets and accelerators in science. The tribute concluded with the presentation of the IEEE Milestone Award plaque, which read: The first large-scale use of superconducting magnets enabled the construction of the Tevatron. By 1985, the Tevatron achieved energy above 1 Tera electron-volt (TeV) in proton-antiproton collisions, making it the most powerful particle collider in the world until 2009. The Tevatron construction established the superconducting wire manufacturing infrastructure that made applications such as Magnetic Resonance Imaging (MRI) viable. Tevatron unveiling img 1 The unveiling of the IEEE Milestone Plaque, participants from L to R: Bakul Banerjee, IEEE; Jennifer Bernhard, UIUC, Bruce Strauss; Alvin Tollestrup, Fermilab; Jeff Schielke, Mayor of Batavia, and Mike Weiss, Fermilab. "I firmly believe that MRI would have developed much more slowly, or maybe not even been successful, without the work that was done here at the Tevatron first," said Kathleen Amm of GE. Amm touted the Tevatron's so-called Rutherford cable, a specific configuration of 23 strands of a niobium-and-titanium-alloy wire twisted together. Fermilab scientists and others spent several years developing the cable to have a high enough current and just the right mechanical properties to be wound into a magnet. "The very filaments we had in the Rutherford cables for the Tevatron magnets actually helped us to make magnets internally at GE," Amm said. The design of the superconducting magnets for the Tevatron has also had a far-reaching impact on accelerators for science, with the design of special magnet collars becoming part of “the DNA of every accelerator magnet since then,” noted IEEE Council on Superconductivity President and Department of Energy official Bruce Strauss. Tevatron img 2 Dr. Bruce Strauss, President of the IEEE Council on Superconductivity, who chaired the IEEE Milestone dedication ceremony. The U.S. DOE and its precursor agencies supported the Tevatron at Fermilab. DOE Fermi Site Office Manager Mike Weis likened the way the Tevatron elevated superconducting wire and cable production to the role of Babe Ruth in baseball. "Prior to 1919, the New York Yankees had never won anything. And then they acquired Babe Ruth," Weis said. "Once we were able to get the Tevatron to get to those higher energy levels with that investment and that technology development, we are now always going to refer back to the Tevatron as having this greatness, just like we refer back to Babe Ruth. Everyone knows who Babe Ruth is." The market today for medical and industrial accelerators exceeds $2.2 billion. “Past, present, and future … the benefit of accelerators has not just been about science. It has also had a significant impact on the economy, and on society through health, energy, and security," said University of Chicago Executive Vice President for Research, Innovation, and National Laboratories Eric D. Isaacs. "You think about what the cost of the Tevatron was, and it's been repaid many, many, many times over in the MRI industry," Amm said. "And all of that return, I think, traces back to the fact that we had magnets, we had conductor developed here." She added, "The impact of the Tevatron continues forward into the future." Photography by Reidar Hahn For additional photographs for the Milestone ceremony, please click here. For videos of the lectures presented during the IEEE Milestone Dedication Ceremony, please click here. This page is based on material which originally appeared on the Fermilab website at http://news.fnal.gov/2017/12/ieee-honors-game-changing-tevatron-technology/.