It turns out these are the exact same capabilities that quantum sensors are now exploring," said Fermilab scientist Lauren Hsu, one of the QSC collaborators. Working to realize the vision of a future topological quantum computer is just one part of the QSC program. Just as dark matter detector research will aid in qubit advances, advances in qubits could also be a boon to dark matter research. Advanced qubit-based sensors could help look for dark matter particles in mass ranges that are currently unexplored because of the limitations of today's detector technology.
QSC scientists will leverage Fermilab's underground areas — originally developed as part of the lab's neutrino research program —to test topological qubits' responses to faint signals and explore various exotic quantum materials for making the qubits. Quantum-computer architects ask a great deal of their qubits. Whereas classical semiconductor computers store information using large numbers of electrons, future quantum computers must be able to control and read out information stored in single quantum excitations.
Scientists expect that such ultraprecise control can be achieved with a topological qubit. One of the first steps in its development is identifying the quantum materials that can be used to make it. Find out more about our story, from our earliest directors to our most important discoveries, and see photographs from every era on our history pages. Have a question about our science, research or public offerings?
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Photo and video gallery Take a tour of Fermilab without leaving your house with this collection of photos and videos. Nigel Lockyer: Accelerating physics research Published. Where did the Big Bang happen? Do sterile neutrinos exist? Even Bananas Published. Oct 18, Muon g Particle Physics.
Emerging Tech. Fermilab news. MicroBooNE experiment's first results show no hint of a sterile neutrino Four complementary analyses by Fermilab's MicroBooNE show no signs of a theorized fourth kind of neutrino known as the sterile neutrino.
Over a year later, construction continues to progress on PIP-II Cryoplant Building A little over a year into construction, the structure of the building that will house the cryogenic equipment for the PIP-II particle accelerator is largely complete.
Fermilab sees record performance from next-generation accelerator component Accelerator experts at three national labs have advanced the next generation of cryomodules, the building blocks of particle accelerators. In The Media.
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