Gottesman and Chuang Quantum Digital Signature: Difference between revisions

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The [ example protocol] achieves the functionality of [[(Quantum) Digital Signatures (QDS)]] allowing the exchange of classical messages from sender to multiple recipients, with a guarantee that the signature has come from a genuine sender. Additionally, it comes with the properties of (i) [[Quantum Digital Signature#Properties|transferability]] i.e. messages with DS can be forwarded from one recipient to another such that DS is verifiable to have come from the original sender, (ii) [[Quantum Digital Signature#Properties|non-repudiation]] i.e at any stage after sending the message to one recipient, sender cannot deny having sent the message and corresponding DS, and (iii) [[Quantum Digital Signature#Properties|unforgeability]] i.e. a dishonest recipient cannot alter or fake the sender's DS and forward it to other recipients successfully.<br/> Such protocols require parties to store quantum states for comparison at a later stage. For simplicity, most protocols take into account the case of one sender and two recipients (Seller, buyer and verifier) exchanging single-bit classical messages.  
The [https://arxiv.org/abs/quant-ph/0105032 example protocol] achieves the functionality of [[Quantum Digital Signature|(Quantum) Digital Signatures (QDS)]] allowing the exchange of classical messages from sender to multiple recipients, with a guarantee that the signature has come from a genuine sender using quantum memory. It comes with all the [[Quantum Digital Signature#Properties|Properties]] of QDS.<br/> Such protocols require parties to store quantum states for comparison at a later stage. For simplicity, most protocols take into account the case of one sender and two recipients (Seller, buyer and verifier) exchanging single-bit classical messages.  


'''Tags:''' [[:Category:Multi Party Protocols|Multi Party (three)]], [[:Category:Quantum Enhanced Classical Functionality|Quantum Enhanced Classical Functionality]], [[:Category:Specific Task|Specific Task]], [[Quantum Digital Signature]], [[Prepare and Measure Quantum Digital Signature]], [[Measurement Device Independent Quantum Digital Signature (MDI-QDS)]]
'''Tags:''' [[:Category:Multi Party Protocols|Multi Party (three)]], [[:Category:Quantum Enhanced Classical Functionality|Quantum Enhanced Classical Functionality]], [[:Category:Specific Task|Specific Task]], [[Quantum Digital Signature]], [[Prepare and Measure Quantum Digital Signature]], [[Measurement Device Independent Quantum Digital Signature (MDI-QDS)]]
[[Category:Multi Party Protocols]][[Category:Quantum Enhanced Classical Functionality]][[Category:Specific Task]]
[[Category:Multi Party Protocols]][[Category:Quantum Enhanced Classical Functionality]][[Category:Specific Task]]


== Requirements ==
==Assumptions==
*'''Network Stage:''' [[Category: Quantum Memory Network Stage]][[:Category: Quantum Memory Network Stage|Quantum Memory]]
*'''Relevant Network Parameters:'''
*'''Benchmark values:''' No experimental implementation using qubits. See [[Gottesman and Chuang Quantum Digital Signature#Further Information|Experimental Papers (1)]] for implementation using coherent states.


==Outline==
==Outline==
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==Properties==
==Properties==
== Requirements ==
*'''Network Stage:''' [[Category: Quantum Memory Network Stage]][[:Category: Quantum Memory Network Stage|Quantum Memory]]
*'''Relevant Network Parameters:'''
*'''Benchmark values:''' No experimental implementation using qubits. See [[Gottesman and Chuang Quantum Digital Signature#Further Information|Experimental Papers (1)]] for implementation using coherent states.
==Pseudocode==
==Pseudocode==


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