kvantekohärenstid

Kvantekohärenstid, or quantum coherence time, is the characteristic duration over which a quantum system retains its phase relationships and remains in a superposition of states before environmental interactions cause decoherence. It is a fundamental parameter in quantum mechanics and is crucial for technologies such as quantum computing, quantum sensing, and quantum communication. The coherence time is typically quantified by the decay of off-diagonal elements in the system’s density matrix and can be measured experimentally using techniques such as Ramsey interferometry, spin echo, or photon correlation spectroscopy.

Factors that influence kvantekohärenstid include temperature, electromagnetic noise, material defects, and the strength of coupling to

Long coherence times enable more quantum operations within the decoherence window, improving gate fidelities and error

The concept also appears in quantum biology, where evidence suggests coherence may persist for short times