Europe aims to catch up in the global quantum computing race with a new strategy to secure its position against the USA and China. While Europe has strong foundational research, it struggles with translating this into market-ready products, highlighting the need for better industrial applications and private investment.
SaxonQ has unveiled a portable quantum computer that operates at room temperature, eliminating the need for cryogenic cooling. Demonstrated at Hannover Messe 2025, it successfully executed real-time image classification and quantum chemistry simulations, showcasing its potential for industrial applications without complex infrastructure.
Sparrow Quantum has secured €21.5 million in Series A funding to enhance its photonic quantum chip technology. Led by PensionDanmark, the investment aims to accelerate R&D and production, positioning Denmark as a leader in quantum innovation and addressing the growing demand for advanced quantum hardware in Europe.
Engineers at UCL have developed a groundbreaking fabrication process for quantum computers, achieving nearly zero failure rates. This method allows precise arrangement of individual atoms, marking a significant advancement toward scalable quantum devices. The research highlights the potential of arsenic over phosphorus for creating reliable qubits in silicon.
Quantum computing is rapidly evolving from theoretical concept to practical technology. With IBM’s 1,386-qubit Condor processor and breakthroughs in error correction, industries are already benefiting from quantum optimization, simulation, and machine learning, with the software market projected to grow to $31.8 billion by 2034.
In April 2025, IBM’s Condor quantum processor reached 1,386 qubits, marking a significant leap in quantum computing. With advancements from companies like Microsoft and IonQ, practical applications are emerging across industries, from finance to telecommunications. As the market grows, businesses must prepare for the transformative impact of quantum technology.
Physicists have discovered a new subatomic phenomenon called fractional excitons, confirming theoretical predictions of quasiparticles with unique properties. This breakthrough, supported by the U.S. National Science Foundation, could enhance information storage and manipulation at the quantum level, paving the way for faster and more reliable quantum computers.
A Chinese quantum computing firm, Origin Quantum, has achieved a world-first by fine-tuning a billion-parameter AI model on its third-generation superconducting quantum computer, Origin Wukong. This breakthrough demonstrates the potential of quantum computing in enhancing AI model efficiency, marking a significant advancement in the field.
The UK has achieved a significant milestone in quantum communications with the first long-distance secure data transfer over 410 kilometers of fiber optic cable. This breakthrough integrates advanced quantum key distribution techniques, paving the way for a large-scale quantum internet and enhancing digital privacy across various sectors.
The impending arrival of quantum computers poses a significant threat to current cybersecurity infrastructures. These powerful machines could undermine existing security systems, necessitating the development of post-quantum cryptography. Organizations must act swiftly to update their systems and prepare for potential ‘harvest-now, decrypt-later’ attacks.
