The paper proposes steganographic protocols for transmitting quantum entanglement disguised as thermal noise, enabling hidden nonclassical state teleportation even against an active eavesdropper.
High Fidelity Artificial Quantum Thermal State Generation using Encoded Coherent States
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abstract
Quantum steganography is a powerful method for information security where communications between a sender and receiver are disguised as naturally occurring noise in a channel. We encoded the phase and amplitude of weak coherent laser states such that a third party monitoring the communications channel, measuring the flow of optical states through the channel, would see an amalgamation of states indistinguishable from thermal noise light. Using quantum state tomography, we experimentally reconstructed the density matrices for artificially engineered thermal states and spontaneous emission from an optical amplifier and verified a state fidelity F>0.98 when compared with theoretical thermal states.
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quant-ph 1years
2024 1verdicts
UNVERDICTED 1representative citing papers
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Steganographic Entanglement Sharing
The paper proposes steganographic protocols for transmitting quantum entanglement disguised as thermal noise, enabling hidden nonclassical state teleportation even against an active eavesdropper.