Now, researchers at the University of Chicago’s Pritzker School of Molecular Engineering (PME) have discovered how to combine two powerful technologies—trapped atom arrays and photonic devices—to yield advanced systems for quantum computing, simulation and networking. The new combination will allow the construction of large quantum systems which can be easily scaled up, by leveraging photonics to interconnect individual atom arrays.

A study led by FAMU-FSU College of Engineering Professor Wei Guo that was published in Physical Review Letters shows new insight into the quantum state that describes the condition of electrons on such a qubit, information that can help engineers build this innovative technology.

Researchers affiliated with the Joint Center for Quantum Information and Computer Science (QuICS) and the NSF Institute for Robust Quantum Simulation (RQS) are addressing this challenge, developing a new concept built on quantum spherical codes that could make the notoriously fragile information in a photon-based quantum computer less susceptible to errors.

University of Saskatchewan (USask) researchers will have access to one of the world's most powerful quantum computers, thanks to a $558,208 contribution from PrairiesCan through the Regional Innovation Ecosystem (RIE) Program.

Lawrence Berkeley National Laboratory (Berkeley Lab) researchers from the Scientific Data Division, the Applied Mathematics & Computational Research Division, and the National Energy Research Scientific Computing Center (NERSC), in collaboration with teams from San Francisco State University (SFSU) and Case Western Reserve University, recently released two papers introducing new methods of data storage and analysis to make quantum computing more practical and exploring how visualization helps in understanding quantum computing.

The Quantum Strategy Institute (QSI) announced the 2024 International Quantum Strategy Day (IQSD) competition, a unique opportunity for quantum enthusiasts to showcase their strategic skills and develop practical quantum applications, taking place on Friday, April 19th. This year, QSI is partnering with Terra Quantum, a leading quantum software company, to offer the winning team exclusive access to TQ42, Terra Quantum's cutting-edge quantum computing platform.

A group of physicists from ARQUE Systems and ParityQC present a version of the ParityQC Architecture specifically for quantum computers based on sparse grids of spin qubits. This quantum computing architecture represents an important step forward for the advancement of spin qubits as a quantum computing platform, efficiently harnessing their advantages such as fast timescales and small size.

A quantum computer will serve as an enhancement to advanced computing centers for dealing with advanced physical simulations and optimization problems, alongside CPUs and GPUs.

Alice & Bob, a quantum hardware manufacturer and leading QPU designer, today announced it is working to accelerate the integration of quantum technology into industry by introducing cat qubits into the datacenters of the future.