GHZ-based Quantum Anonymous Transmission: Difference between revisions

GHZ-based Quantum Anonymous Transmission (edit)

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Shraddha

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	This [https://arxiv.org/abs/quant-ph/0409201 example protocol] implements the task of [[Anonymous Transmission]] in a multiple node quantum network. The protocol uses <math>n</math>-partite [[GHZ state]] to enable two nodes, sender and receiver, to establish a link which they use to transmit a quantum message. Importantly, the quantum message is transmitted in a way that the identity of the sender is unknown to every other node, and the identity of the receiver is known only to the sender.		This [https://arxiv.org/abs/quant-ph/0409201 example protocol] implements the task of [[Anonymous Transmission]] in a multiple node quantum network. The protocol uses <math>n</math>-partite [https://en.wikipedia.org/wiki/Greenberger%E2%80%93Horne%E2%80%93Zeilinger_state GHZ state] to enable two nodes, sender and receiver, to establish a link which they use to transmit a quantum message. Importantly, the quantum message is transmitted in a way that the identity of the sender is unknown to every other node, and the identity of the receiver is known only to the sender.

	'''Tags:''' [[:Category: Quantum Enhanced Classical Functionality\|Quantum Enhanced Classical Functionality]][[Category: Quantum Enhanced Classical Functionality]], [[:Category: Multi Party Protocols\|Multi Party Protocols]] [[Category: Multi Party Protocols]], [[:Category:Specific Task\|Specific Task]][[Category:Specific Task]], GHZ state, anonymous transmission		'''Tags:''' [[:Category: Quantum Enhanced Classical Functionality\|Quantum Enhanced Classical Functionality]][[Category: Quantum Enhanced Classical Functionality]], [[:Category: Multi Party Protocols\|Multi Party Protocols]] [[Category: Multi Party Protocols]], [[:Category:Specific Task\|Specific Task]][[Category:Specific Task]], GHZ state, anonymous transmission