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Building a quantum clock that operates entirely on quantum principles is an active area of research in the field of quantum metrology. Quantum clocks aim to leverage the properties of quantum systems, such as superposition and entanglement, to achieve higher precision and accuracy than classical clocks.

Traditional clocks, such as atomic clocks, already incorporate quantum principles to some extent. They use the oscillations of atoms or ions as highly stable time references. However, they still rely on classical techniques for measurements and readouts.

To build a fully quantum clock, researchers are exploring various approaches. One promising avenue is to use quantum systems with well-defined and stable energy levels as the basis for timekeeping. Examples include systems like trapped ions, superconducting circuits, or quantum oscillators.

Quantum systems can exhibit properties like coherence, entanglement, and squeezing, which can be harnessed to improve the precision of timekeeping. For instance, entangled states can potentially provide enhanced measurement capabilities by reducing noise or increasing sensitivity.

However, building a practical quantum clock that is entirely quantum is a complex task that requires addressing several technical challenges. These challenges include maintaining coherence and stability of quantum systems, minimizing external disturbances, mitigating quantum decoherence effects, and developing suitable measurement and control techniques.

While progress is being made in developing quantum clocks, it may still take some time before fully quantum clocks become a reality. Nonetheless, the field of quantum metrology holds promise for advancing the precision and accuracy of timekeeping beyond what classical clocks can achieve.

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