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In 2024, Fermilab made significant scientific progress, including advancing preparations for the Deep Underground Neutrino Experiment and conducting groundbreaking quantum research. The laboratory also continued its strong international collaborations — including involvement with the CMS experiment at CERN — and made strides in developing emerging technologies with wide applications beyond physics.

The coldbox, a vital piece of Fermilab’s new linear accelerator, is on a two-month voyage from France to its new home in Batavia, Illinois. It will be at the heart of the cryogenic system for the lab’s upgraded accelerator complex.

The PIP-II accelerator upgrade project at Fermilab officially completed its subproject dedicated to the early stages of facilities construction.

The five quantum centers have reached significant accomplishments, summarized in a new joint website, nqisrc.org.

Some friendly competition between the CMS and ATLAS experiments led up to the first discovery of entanglement at the Large Hadron Collider.

The Quantum Instrumentation Control Kit now features updated software and firmware and new companion hardware called QICK box. This Fermilab-developed system combines everything a scientist might need to conduct mind-bending research in a pizza-box-sized case.

Fermilab earned national recognition for its sustainability efforts, receiving three prestigious awards from the U.S. Department of Energy. The laboratory’s new Integrated Engineering Research Center was celebrated for its environmentally friendly design. The successful transition of 32% of Fermilab’s fleet to zero emission vehicles was also recognized.

Researchers used the Dark Energy Spectroscopic Instrument to map how nearly 6 million galaxies cluster across 11 billion years of cosmic history. Their observations line up with what Einstein’s theory of general relativity predicts.

Particle accelerator beams can create significant damage to the targets used to generate particles for experiments. Researchers are designing targets to withstand material degradation from radiation damage, shock from thermal expansion and material fatigue — all caused by accelerated protons.