The story goes that after Ernest Lawrence came up for the design for the first cyclotron, he raced from the Berkeley library shouting, “I’m going to be famous!” His prediction was spot on: the cyclotron was the first particle accelerator, the first machine that could study matter on its smallest scales. Since it was became the model for all subsequent accelerators, its invention established Lawrence’s place as one of the most important and influential physicists of the 20th century.
Eighty years later, accelerators range from the relatively low-energy machines used to treat cancer in single hospital rooms to the Large Hadron Collider, which crosses an international border and gets us to energy levels last seen fractions of second after the Big Bang. Up until now bigger has meant better in terms of accelerators, but as we look forward to the proposed International Linear Collider and beyond, many physicists are investigating how to fit the biggest of Big Science onto a tabletop.
New accelerator technology at Fermilab
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Tagged acclerators, Argonne, Department of Energy, DOE, energy, Fermilab, ILC, International Linear Collider, Large Hadron Collider, Lawrence Berkeley, National Laboratories, particle accelerators, particle physics, Physics, road trips, science, Superconducting Super Collider, wakefield acceleration
The site of the abandoned Superconducting Super Collider.
The Superconducting Super Collider is rarely discussed anymore, but its ghost has haunted high energy physics for the last 16 years. Slated to begin operations in 1999 in Waxahachie, Texas, the SSC would have been nearly three times as powerful as the Large Hadron Collider at CERN. Had it been completed, we would probably not be waiting with bated breath for the hints of the Higgs Boson from the LHC: the Higgs and a slew of other physics would most likely be among the recent accomplishments of jubilant experimental physicists.
Alas, after ten years of planning and $2 billion in construction costs, Congress pulled the plug on the project in 1993. Today, several of the buildings and 14 miles of the planned 54-mile-long tunnel sit abandoned in the Texas desert — the tunnel intentionally filled with water in order to preserve it. Despite talk of turning the site into a mushroom farm or a data center, the site hasn’t been used for much other than a filming location for Universal Soldier: The Return, which even we aren’t curious enough to watch.
But wondering about what’s actually there, Nick and I decided to search for its remains on our way from Chicago to Los Alamos.
Lizzie comes face to face with the greatest unrealized dream in American particle physics.
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Tagged acclerators, AEC, Argonne, Department of Energy, DOE, Fermilab, high energy physics, history, Large Hadron Collider, LHC, National Laboratories, particle accelerators, particle physics, photography, Physics, road trips, science, SSC, summerofscience, Superconducting Super Collider
The MINOS Far Detector, buried 2,341 feet beneath the earth in the Soudan Mine in northern Minnesota. A mural by Joseph Giannetti about the power of science is painted on the right wall.
After visiting the point of origin of the MINOS neutrinos on our Fermilab tour at the beginning of the trip, it seemed a fitting conclusion to stop by their destination as my own road neared its end. So with Lizzie in Mexico, I made the Summer’s last science-related stop at the Soudan Mine with my friend Sam on our way back across the country.
As discussed in our previous post, the MINOS experiment uses a beam of neutrinos called NuMI (Neutrinos at the Main Injector) produced by decaying protons from Fermilab’s Main Injector. These neutrinos travel 450 miles through the earth to the 2341-foot deep Soudan Mine in northeast Minnesota (and beyond, of course), where physicists can isolate the Far Detector from just about any interference. Despite the fact that the detector is shaped like an enormous stop sign, only a tiny number of neutrinos obey the symbolic request: of all the trillions of neutrinos produced by NuMI, the Far Detector sees only about one a day.
Courtesy of Fermilab.
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Tagged bats, bob dylan, detectors, Fermilab, MINOS, Museum of Jurassic Technology, neutrinos, particle physics, photography, Physics, road trips, science, Soudan, summerofscience
The enormous hole in the MINOS building that leads down to the NuMI neutrino beamline and MINOS
In all the fuss about how amazing the LHC is going to be, we often forget that there are things it won’t be able to do. One of the most glaring holes in the LHC’s research program is how little work it plans to do on neutrino physics, one of the most exciting and promising fields in the quest to go beyond the Standard Model. Neutrinos are elementary particles that are nearly massless and have no charge. They rarely interact with other particles, so you need to make a lot of them to have the faintest hope of detecting just a few in experiments. In other words, you don’t need very high energy protons to produce neutrinos, but you do need a lot of lower energy ones.
It wouldn’t really make sense to devote much of the LHC’s particle yield to experiments that don’t need anything approaching its high energies, especially during the early years of the experiment. So Fermilab, somewhat presciently, is stepping in to fill the gap. As our tour guide and gracious host Kurt Riesselmann told us, “Fermilab is moving from the energy frontier to the intensity frontier” — meaning that instead of producing a small number of the highest possible energy particles, the lab is figuring out how to make as many lower energy particles as possible.
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Tagged detectors, DOE, Fermilab, MiniBooNE, MINOS, National Laboratories, neutrinos, particle physics, photography, Physics, road trips, science, Soudan, summerofscience