Quantum sensing

Quantum sensing uses the principles of quantum mechanics—like superposition and entanglement—to detect extremely small changes in properties such as magnetic or electric fields, temperature, or pressure. By exploiting quantum states that are highly sensitive to their environment, these sensors can measure with precision far beyond traditional devices. This enhanced sensitivity enables applications in medical imaging, navigation, geology, and fundamental physics, providing more accurate and detailed information. Essentially, quantum sensing leverages the unique behaviors of quantum particles to improve measurement capabilities beyond classical limits.