Press Release A mathematical shortcut for determining quantum information lifetimes A new, elegant equation allows scientists to easily compute the quantum information lifetime of 12,000 different materials. April 06, 2022 | Quantum Information Science, Q-NEXT
In the News SUNY Collaboration Explores Quantum Computing Network April 04, 2022 | quantum, Quantum Information Science
Awards and Recognition The innovative science of Argonne to aid American small businesses Projects are part of $35 million in new funding to tap into the many talents within America’s small businesses. March 10, 2022 | Computer Science and Engineering, Materials Science and Engineering, Business Development
Awards and Recognition Argonne honors 11 postdoctoral appointees Postdocs recognized for contributions to science and technology, problem solving and leadership. March 04, 2022 | Artificial Intelligence, Machine Learning, Deep Learning
Press Release A new platform for customizable quantum devices A ground-up approach to qubit design leads to a new framework for creating versatile, highly tailored quantum devices. February 24, 2022 | Synthetic Chemistry, Quantum Information Science, Q-NEXT
Awards and Recognition MIT joins Q-NEXT national quantum research center The MIT team brings world-leading molecular chemistry research to the Q-NEXT quantum materials development effort. February 23, 2022 | Synthetic Chemistry, Quantum Information Science, Q-NEXT
Press Release Researchers set record by preserving quantum states for more than 5 seconds Breakthrough using common material could pave way for new quantum technologies. February 02, 2022 | quantum materials, qubits, Quantum Information Science
Awards and Recognition Laura Gagliardi elected to Italian National Academy of Sciences The academy is one of the world’s oldest and most prestigious scientific academies, counting Louis Pasteur, Albert Einstein and Enrico Fermi among its members. December 17, 2021 | Chemistry, Quantum Information Science, Q-NEXT
Press Release How to transform vacancies into quantum information Team’s findings could help the design of industrially relevant quantum materials for sensing, computing and communication. December 15, 2021 | Computer Science and Engineering, Artificial Intelligence, Machine Learning
Feature Story Argonne quantum research may reshape how we sense and relay data The smallest bits of matter and energy are the building blocks of a radically new paradigm for sensing and relaying information. November 29, 2021 | Computer Science and Engineering, Theoretical Computer Science, Quantum Mechanics