Quantum entanglement, once labeled as “spooky action at a distance” by Einstein, lies at the heart of quantum communication and teleportation. In this paper, we explore the integration of Kisalaya Chakrabarti’s concept of translational symmetry in intermediate nodes with traditional entanglement frameworks. This symmetry provides a novel lens for interpreting the spatial coherence and information flow between entangled particles. By extending the EPR paradox and recent quantum teleportation protocols, we show how translational symmetry can support the design of deterministic quantum communication systems with enhanced stability and fidelity.

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Translational Symmetry of Intermediate Nodes in Entangled Particles: A New Perspective on Quantum Communication

  • Kisalaya Chakrabarti,
  • Ankita Jaiswal,
  • Angsuman Sarkar

摘要

Quantum entanglement, once labeled as “spooky action at a distance” by Einstein, lies at the heart of quantum communication and teleportation. In this paper, we explore the integration of Kisalaya Chakrabarti’s concept of translational symmetry in intermediate nodes with traditional entanglement frameworks. This symmetry provides a novel lens for interpreting the spatial coherence and information flow between entangled particles. By extending the EPR paradox and recent quantum teleportation protocols, we show how translational symmetry can support the design of deterministic quantum communication systems with enhanced stability and fidelity.