2D Computing Magnets For Temperatures Up To 170-Degrees Fahrenheit


A technical paper titled “Magnetic properties of intercalated quasi-2D Fe3-xGeTe2 van der Waals magnet” was published by researchers at University of Texas at El Paso, National Institute of Standards and Technology (NIST), University of Edinburgh, Donostia International Physics Centre (DIPC), Hampton University, and Brookhaven National Laboratory. Abstract: "Among several well-kno... » read more

A Novel Way To Stretch Diamond For Better Quantum Bits


A technical paper titled “Microwave-Based Quantum Control and Coherence Protection of Tin-Vacancy Spin Qubits in a Strain-Tuned Diamond-Membrane Heterostructure” was published by researchers at University of Chicago, University of Cambridge, Argonne National Laboratory, and Delft University of Technology. Abstract: "Robust spin-photon interfaces in solids are essential components in quant... » read more

Free Space Optical Quantum Key Distribution (FSO-QKD) System Within a Vehicle-to-Infrastructure Application


A new technical paper titled "A Practical Implementation of Quantum-Derived Keys for Secure Vehicle-to-Infrastructure Communications" was published by University of Warwick. Abstract "We provide a practical implementation of a free space optical quantum key distribution (FSO-QKD) system within a vehicle-to-infrastructure (V2I) application developed under the Innovate UK AirQKD project. The ... » read more

Using Atomic Vacancies In Silicon Carbide To Measure The Stability And Quality Of Acoustic Resonators


A technical paper titled “Spin-acoustic control of silicon vacancies in 4H silicon carbide” was published by researchers at Harvard University and Purdue University. Abstract: "Bulk acoustic resonators can be fabricated on the same substrate as other components and can operate at various frequencies with high quality factors. Mechanical dynamic metrology of these devices is challenging as... » read more

Discrete Noise Approximation When Modeling The Effects Of Noise On Quantum Circuits


A technical paper titled “The Discrete Noise Approximation in Quantum Circuits” was published by researchers at HQS Quantum Simulations. Abstract: "When modeling the effects of noise on quantum circuits, one often makes the assumption that these effects can be accounted for by individual decoherence events following an otherwise noise-free gate. In this work, we address the validity of th... » read more

Measurement-Induced Quantum Information Phases On Up To 70 Superconducting Qubits (Google/Stanford)


A technical paper titled “Measurement-induced entanglement and teleportation on a noisy quantum processor” was published by researchers at Google Quantum AI, Google Research, Stanford University, University of Texas at Austin, Cornell University, University of Massachusetts, University of Connecticut, Auburn University, University of Technology Sydney, University of California, and Columbia... » read more

An Overview Of Current Projects In The Open Quantum Hardware Ecosystem With Recommendations 


A technical paper titled “Open Hardware in Quantum Technology” was published by researchers at Unitary Fund, Qruise, Technical University of Valencia, M-Labs Limited, Lawrence Berkeley National Laboratory, Fermi National Accelerator Laboratory, Sandia National Laboratories, IQM Quantum Computers, PASQAL, Quantonation, Michigan State University, Università di Camerino, Microsoft Quantum, an... » read more

CMOS Compatible Materials With Quantum Defects Suitable For Room Temperature Applications


A technical paper titled “Thin Film Materials for Room Temperature Quantum Applications” was published by researchers at Marquette University. Abstract: "Thin films with quantum defects are emerging as a potential platform for quantum applications. Quantum defects in some thin films arise due to structural imperfections, such as vacancies or impurities. These defects generate localized el... » read more

SRAM-Based IMC For Cryogenic CMOS Using Commercial 5 nm FinFETs


A technical paper titled “Cryogenic In-Memory Computing for Quantum Processors Using Commercial 5-nm FinFETs” was published by researchers at University of Stuttgart, Indian Institute of Technology Kanpur, University of California Berkeley, and Technical University of Munich. Abstract: "Cryogenic CMOS circuits that efficiently connect the classical domain with the quantum world are the co... » read more

Framework for Prototyping And In-Hardware Evaluation of Post-Quantum Cryptography HW Accelerators (TU Darmstadt)


A technical paper titled “PQC-HA: A Framework for Prototyping and In-Hardware Evaluation of Post-Quantum Cryptography Hardware Accelerators” was published by researchers at TU Darmstadt. Abstract: "In the third round of the NIST Post-Quantum Cryptography standardization project, the focus is on optimizing software and hardware implementations of candidate schemes. The winning schemes are ... » read more

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