quantum entanglement swapping in solid-state systems
Quantum entanglement swapping in solid-state systems refers to the process of transferring entanglement between two pairs of entangled particles, even if they are not in direct contact, by utilizing an intermediary system. This phenomenon allows for the creation of entanglement between particles that were previously unentangled, enabling the transmission of quantum information across distant solid-state devices.
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Related Concepts (20)
- bell's theorem
- diamond nv centers
- entanglement swapping
- epr paradox
- optical cavities
- photonic crystals
- quantum coherence
- quantum communication
- quantum computing
- quantum dots
- quantum entanglement
- quantum gates
- quantum information processing
- quantum measurement
- quantum states
- quantum teleportation
- semiconductor devices
- solid-state systems
- spin qubits
- superconducting circuits
Similar Concepts
- quantum computation with interacting particle systems
- quantum entangled systems
- quantum entanglement and many-body systems
- quantum entanglement experiments
- quantum entanglement in condensed matter systems
- quantum entanglement in particle physics
- quantum entanglement swapping
- quantum entanglement swapping experiments
- quantum entanglement swapping in atomic and molecular systems
- quantum entanglement swapping in photonic systems
- quantum entanglement swapping in quantum computing systems
- quantum entanglement swapping protocols
- quantum entanglement teleportation
- quantum entanglement-based computation
- quantum state entanglement