Quantum technologies extend beyond computing into quantum sensing, which enables ultra-precise measurements far surpassing classical instruments. Quantum sensors utilize quantum superposition and entanglement to detect minute changes in gravitational fields, magnetic forces, and time synchronization.

Applications of quantum sensing include:

Quantum gravimeters for underground resource detection and earthquake prediction.

Atomic clocks based on quantum transitions for ultra-precise timekeeping, essential for GPS and secure communications.

Quantum magnetometers for advanced medical imaging (MRI) and brainwave analysis.

By 2025+, quantum sensors are expected to revolutionize navigation systems, eliminating reliance on satellite-based GPS, and enhancing scientific research in materials science and space exploration.