Quantum Locking

Quantum locking, also known as flux pinning, occurs when a superconducting material is cooled below its critical temperature and becomes levitated over a magnetic field. Due to its unique quantum properties, the superconductor "locks" itself in place within the magnetic field lines, allowing it to float or glide without friction. This phenomenon combines superconductivity and magnetic fields, enabling futuristic applications like frictionless transportation, enhanced energy systems, and advanced quantum computing. Essentially, it's a striking demonstration of quantum mechanics in action, showcasing how materials can interact with magnetic fields in remarkable ways.