Reduced entanglement describes a state where the quantum correlation between two or more quantum systems has been diminished or minimized. In quantum information theory, entanglement refers to a strong correlation where the state of one particle instantly affects the state of another, regardless of distance. Reducing this connection can simplify quantum computations or mitigate noise in quantum systems. This concept is relevant for maintaining coherence and managing information in complex quantum environments.
Context
While primarily a quantum mechanics concept, the idea of reduced entanglement can be metaphorically applied to discussions of system design and dependency minimization in distributed ledger technology. In blockchain networks, reducing the interdependencies or connection between different components or protocols can enhance modularity and resilience. A key debate might consider how minimizing complex dependencies in blockchain architecture could improve scalability or reduce points of failure. Future developments could see architectural designs that deliberately aim for less tightly coupled components, conceptually similar to reduced entanglement, to improve system robustness.
This research introduces classical-query setups for quantum cryptographic primitives, significantly lowering hardware demands and accelerating practical quantum-secure deployments.
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