PsiQuantum today announced a $10.8M contract with the Air Force Research Laboratory (AFRL) in Rome, N.Y., continuing a partnership that began in 2022. This phase will give AFRL a design space for comparative quantum circuits on PsiQuantum’s circuit tapeout, part of its ongoing Omega quantum chipset manufacturing with GlobalFoundries. As AFRL’s hardware design partner, PsiQuantum will supply its high-performance Barium Titanate (BTO) Electro-Optic phase shifters and integrate BTO into AFRL-designed optical circuits. PsiQuantum’s 300mm BTO material is believed to be the world’s highest-performing electro-switch material. The company will also provide essential quantum circuit components. Once designed, constructed, and screened for performance, the company will deliver these completed chips to AFRL, who will then validate their capabilities to address other Air Force use cases.

The Integrated Quantum Networks Hub will address the challenges underpinning the establishment of a “quantum internet”, by developing the novel technologies, protocols and industry standards necessary for the deployment of a secure, scalable, quantum communications infrastructure for the UK and beyond.

MIT researchers developed a photon-shuttling “interconnect” that can facilitate remote entanglement, a key step toward a practical quantum computer.

Today, Amazon Web Services (AWS) announced Ocelot, a new quantum computing chip that can reduce the costs of implementing quantum error correction by up to 90%, compared to current approaches. Developed by the team at the AWS Center for Quantum Computing at the California Institute of Technology, Ocelot represents a breakthrough in the pursuit to build fault-tolerant quantum computers capable of solving problems of commercial and scientific importance that are beyond the reach of today’s conventional computers.

Microsoft today introduced Majorana 1, the world’s first quantum chip powered by a new Topological Core architecture that it expects will realize quantum computers capable of solving meaningful, industrial-scale problems in years, not decades.

Infleqtion, a global leader in quantum information technologies, today announced a key milestone in the Scalable Quantum Atomic Lattice computing tEstbed (SQALE) project—the successful demonstration of a 16x16 neutral atom array—the largest reported array of its kind in the UK. This achievement is a crucial step toward building scalable quantum processors capable of supporting fault-tolerant quantum computing.

In a milestone that brings quantum computing tangibly closer to large-scale practical use, scientists at Oxford University Physics have demonstrated the first instance of distributed quantum computing. Using a photonic network interface, they successfully linked two separate quantum processors to form a single, fully connected quantum computer, paving the way to tackling computational challenges previously out of reach. The results have been published today in Nature.

The U.S. Department of Energy’s Office of Science is announcing a Funding Opportunity of $625 million available to support National Quantum Information Science Research Centers to accelerate the transformational advances needed in Quantum Information Science.

the U.S. Department of Energy (DOE) announced $71 million in funding for 25 projects in high energy physics that will use the emerging technologies of quantum information science to answer fundamental questions about the universe.

In new work, using a superconducting qubit called fluxonium, MIT researchers in the Department of Physics, the Research Laboratory of Electronics (RLE), and the Department of Electrical Engineering and Computer Science (EECS) developed two new control techniques to achieve a world-record single-qubit fidelity of 99.998 percent. This result complements then-MIT researcher Leon Ding’s demonstration last year of a 99.92 percent two-qubit gate fidelity.