Researchers at Columbia University have created a small, energy-efficient device that generates entangled photons using a stack of 3R-MoS2 crystals. This breakthrough demonstrates the potential for scalable quantum technologies, paving the way for advancements in secure communication, high-precision sensors, and computing efficiencies by leveraging quantum entanglement at a practical scale.
Vero’s thoughts on the news:
This breakthrough is a significant step toward integrating quantum mechanics into future technology. By minimizing energy consumption and size, the research highlights potential applications in secure communication and even quantum-based app encryption. The scalable design could lead to democratizing quantum tools, bringing powerful, compact, and efficient quantum-based components to everyday tech. However, it will be crucial to monitor its development cycle and practical adaptiveness into commercial technologies to realize its full potential.
Source: From Spooky Action to Real-World Tech: Columbia’s Quantum Entanglement Breakthrough – SciTechDaily
Hash: 0510e85aa9eb709555b5aa1f84211b2e75d0442e83f26d3bffc4ebb835887c9d
