Quantum Machine Learning is where Artificial Intelligence and Quantum Mechanics meet. It uses classical learning methods and the special physics of qubits. This helps solve problems that today’s computers can’t handle. Daoyi Dong at the University of Technology Sydney led a review. The Chinese Academy of Sciences also did research. They showed how neural networks … Read more
Quantum computing uses quantum mechanics to process information. It’s different from classical machines because it uses qubits, not just 0s and 1s. Qubits can hold many states at once, making quantum computers powerful. Big names like IBM, Google, and Microsoft are leading the charge. They’re working on systems like IBM’s Osprey and Google’s research. The … Read more
Imagine two particles separated by galaxies, yet instantly influencing each other’s behavior. This spooky connection, as Einstein once called it, lies at the heart of one of physics’ most fascinating discoveries. While it might sound like science fiction, this phenomenon powers real-world technologies we use daily. NOVA’s groundbreaking research shows how these subatomic interactions shape … Read more
Imagine solving complex problems in minutes that would take today’s fastest supercomputers thousands of years. This is the promise of a new tech revolution happening in labs around the world. Unlike traditional computers, which use binary bits (0s and 1s), the new ones use qubits that can be in many states at once. This change … Read more
Quantum computing is growing fast, with big steps in quantum algorithms and aiming for quantum supremacy. But, there’s a big hurdle: quantum decoherence. This happens when quantum computers talk to their surroundings, causing mistakes in their work. Superconducting quantum computers are extra sensitive to background radiation, leading to errors. Researchers are working hard to make … Read more