A new study published in Nature demonstrates a significant breakthrough in quantum computing. Researchers have successfully created a quantum processor capable of maintaining quantum states, known as coherence, for over 100 seconds—a record duration that marks a crucial step toward practical quantum computers. The team achieved this by using a novel error-correction technique that isolates the quantum bits, or qubits, from environmental interference. This extended coherence time allows for more complex calculations to be performed before the quantum information decays. The findings suggest that scaling up quantum systems for real-world applications, such as drug discovery and materials science, may be more feasible than previously thought. Read the full article for detailed technical insights and expert commentary.