Verifiable Quantum Anonymous Transmission: Difference between revisions

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==Notation==
==Notation==
* <math>n<math>: number of network nodes taking part in the anonymous transmission.
* <math>n</math>: number of network nodes taking part in the anonymous transmission.
* <math>t<math>: number of adversarial network nodes taking part in the anonymous transmission.
* <math>t</math>: number of adversarial network nodes taking part in the anonymous transmission.
* <math>\ket{\psi}<math>: quantum message which the Sender wants to send anonymously.
* <math>\ket{\psi}</math>: quantum message which the Sender wants to send anonymously.
* <math>\ket{GHZ}  = \frac{1}{\sqrt{2</span> (\ket{0^n} + \ket{1^n})<math>: GHZ state.  
* <math>\ket{GHZ}  = \frac{1}{\sqrt{2</span> (\ket{0^n} + \ket{1^n})</math>: GHZ state.  
* <math>\ket{\Psi}<math>: state provided by the untrusted source for anonymous transmission (in the ideal case, this is the GHZ state).
* <math>\ket{\Psi}</math>: state provided by the untrusted source for anonymous transmission (in the ideal case, this is the GHZ state).
* <math>\mathcal{S}<math>: the Sender of the quantum message.
* <math>\mathcal{S}</math>: the Sender of the quantum message.
* <math>\mathcal{R}<math>: the Receiver of the quantum message.
* <math>\mathcal{R}</math>: the Receiver of the quantum message.
* <math>q<math>: the security parameter.
* <math>q</math>: the security parameter.


==Properties==
==Properties==
Write, autoreview, editor, reviewer
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