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framework:quantum-information-theoryQuantum Information Theory
The field providing the result that no finite system can measure entanglement entropy across its own boundary.
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Papers (1)
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Concepts (1)
concept
- entanglement entropyassociated_withA measure of quantum entanglement between subsystems; invoked to show boundary unmeasurability from within.
Related by similarity (8)
cosine ≥ 0.65 · no typed edgeEntities in the same semantic neighborhood but without a typed relation to this one — candidates for new edges or unrecognized duplicates.
- Framework treating phenomena as information flows and exchanges; adopted by Friedman and others to model design as informational process.
- Classical quantitative theory of information; paper seeks to reconcile with qualitative domain-theoretic approaches.
- Mathematical theory of communication and information capacity; Sloman argues Schrödinger anticipated its relevance for genetic coding.
- Formal framework by Krakauer et al. (2020) for defining an individual based on information theory.
- Theoretical framework Schrödinger argues is essential for explaining chemical stability of genes and hereditary substance against thermal perturbation.
- Information theory offers a language to characterize such entities and synergies between them.claim0.783Claim that information-theoretic measures are suitable to model self and agency.
- Diagrammatic approach to quantum theory using visual process representations.
- Formal mathematical framework (Bialek, Tononi, etc.) proposed to characterize autonomous agents and synergies between them.