Fermilab’s new director Norbert Holtkamp returns to the lab with a clear mandate: deliver DUNE, honour the laboratory’s legacy of bold leadership and reaffirm big science’s responsibility to society.

There are many massive neutrino experiments should soon reveal more about the nature of these ghostly particles. DUNE is one of them and it will generate an amazingly intense source of neutrinos using a particle accelerator at Fermilab.

Detector components built at STFC’s Daresbury Laboratory arrived at Fermilab, marking the first direct shipment of these critical components from the UK to the international DUNE experiment, one of the most ambitious particle-physics experiments ever constructed.

Researchers at Fermilab have revealed that an emerging class of quantum sensors, called superconducting microwire single-photon detectors (SMSPDs), could spot high-energy particles and dark matter with exceptional precision.

Detector components built at STFC’s Daresbury Laboratory have arrived at Fermilab, marking the first shipment of these detector components to DUNE experiment.

Researchers at Fermilab and the MIT’s Lincoln Laboratory have successfully trapped and manipulated ions using in-vacuum cryoelectronics, allowing for reduced thermal noise and improved sensitivity.

CERN scientists have reached a crucial milestone in the advancement of the HiLumi LHC project. Fermilab developed and shipped five cryoassemblies containing niobium-tin magnets for use in the High-Luminosity Large Hadron Collider upgrade at CERN.

A bus-sized neutrino detector housed at the Fermilab has investigated the anomalies of previous experiments involving sterile neutrinos.

A partnership between the Quantum Science Center and the Quantum Systems Accelerator, two U.S. Department of Energy national quantum information science research centers, has enabled a breakthrough by Fermilab and MIT Lincoln Laboratory. Researchers used cryoelectronics to control ion traps, a key step toward realizing scalable quantum computers.

Scientists at CERN have triggered the complex cooldown of a 95-meter-long test stand that reproduces the underground configuration of innovative technologies for the Large Hadron Collider’s high-luminosity upgrade.