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Novel Interface for Enhanced Phonon Interactions

In a recent study published in Science Advances, Rice University researchers and partners established a powerful type of interference between phonons, the vibrations in a material’s structure that create the smallest units (or quanta) of heat or sound in that system.

13 Aug 2025

Magnesium Oxide Emerges as Quantum Material Candidate

A study, conducted by the U.S. Department of Energy’s (DOE) Argonne National Laboratory and published in npj Computational Materials, reveals a mineral defect that might be valuable for quantum applications.

30 Jul 2025

QuiX Quantum Secures €15 Million to Deliver First-Generation Universal Photonic Quantum Computer

QuiX Quantum, the Dutch photonic quantum computing pioneer, today announced it has secured €15 million in Series A funding to deliver the world’s first single-photon-based universal quantum computer in 2026.

From QuiX Quantum 14 Jul 2025

Superconducting Qubits Illuminate Highly Excited Magnons in Magnetic Materials

In the journal Physical Review Applied, researchers from the University of Illinois Urbana-Champaign's Grainger College of Engineering have reported that coupling ferromagnetic materials to a superconducting qubit through a microwave cavity allows for an accurate description of highly excited magnon behavior in these materials.

9 Jul 2025

The Next Leap Won’t Come from AI - It’ll Come from Quantum Tech: Expert Calls for National Institute in Quantum Device Engineering

As the Government accelerates its economic reform agenda, with a focus on productivity and harnessing data and digital technology, investing in quantum-enabling technologies stands out as a smart move, writes Professor Malin Premaratne in Monash Lens.

9 Jul 2025

Space Businesses React as UK Government Unveils Industrial Strategy

As UK Space Conference prepares to convene on 16–17 July in Manchester, UK space business leaders have voiced broad support for the UK government’s new industrial strategy.

From UK Space Conference 4 Jul 2025

Researchers Develop AI Tool for Cost-Effective Molecular Property Prediction

By learning electron-level information, Korean researchers have created an artificial intelligence (AI) tool that can anticipate molecular properties without the need for expensive quantum mechanical calculations.

2 Jul 2025

QED-C® Report Recommends Ways to Strengthen Quantum Talent Pipeline and Fill Critical Quantum-Related Positions

The Quantum Economic Development Consortium (QED-C) released a new report that looks at ways to strengthen the quantum industry’s talent pipeline and bridge the gap between classroom formal education and hands-on experience required for quantum-related roles.

From QED-C 27 Jun 2025

OTI Lumionics Releases Breakthrough Algorithms for Quantum Chemistry Simulations

OTI Lumionics' paper reveals a method for optimizing qubit coupled cluster ansatz on classical computers, advancing quantum simulations for materials discovery.

From OTI Lumionics 26 Jun 2025

Unlocking Quantum Computing Power with Scalable Trapped Ion Systems

Research at the Quantum Systems Accelerator has been steadily breaking new ground, quickening the pace toward flexible, stable quantum computers with capabilities well beyond those of today’s classical machines.

14 Jun 2025