Koherentteille

Koherentteille is a theoretical framework used to describe systems that sustain coherent correlations across multiple subsystems despite interaction with an environment. The term is used mainly in discussions of quantum resource theories and in speculative models of information processing where coherence acts as a recoverable resource. Within Koherentteille, states are organized into coherence classes, and a coherence measure C(S) is assigned to each state S. Free operations are defined as those that do not increase C and typically include local noise channels and dephasing operations. Monotonicity requirements ensure that coherence cannot be generated for free during transformations, which allows the analysis of distillation and dilution protocols within the framework.

Applications of Koherentteille appear in thought experiments on quantum communication, distributed sensing, and neuromorphic computing analogies.

Koherentteille emerged in speculative literature as an attempt to unify coherence concepts across disciplines. It remains