<p>➀ The BMFTR-funded SPINNING project demonstrated a diamond spin-photon quantum computer with 12 qubits, showcasing superior coherence times (over 10 ms) and lower error rates (<0.5%) compared to superconducting IBM models (Eagle, Heron);</p><p>➀ Photonic coupling over 20 meters enabled scalable, distributed quantum registers with high fidelity (over 0.9), offering flexible integration with classical computing systems;</p><p>➂ The project involved collaboration among 28 entities, advancing diamond material processing, qubit fabrication, and AI-driven quantum applications, funded with €16.1 million by the German government.</p>
Related Articles
- New Flexible Material Senses Temperature Without External Powerabout 2 months ago
- Lead-Free Solder Paste For Advanced Assembly4 months ago
- Prototype of a Particularly Sustainable and Energy-Autonomous E-Bike Terminal Developed at HKA4 months ago
- Enhancing Chitosan Films with Silanized Hexagonal Boron Nitride for Sustainable Applications4 months ago
- Embedded Security Testbench For Simplified Testing4 months ago
- White Knight to save Shibaura4 months ago
- Ed Rides The Tariff Roller-Coaster4 months ago
- Image Acquisition Software Launch for Centralized Control of NanoZoomer® MD Series4 months ago
- Trump creates U.S. Investment Accelerator to manage CHIPS Act and 'negotiate much better deals'5 months ago
- Water Purification and Energy Generation Using a CNF@CTAB-MXene/PTFE Janus Membrane5 months ago