Quantum Bit Commitment: Difference between revisions

Jump to navigation Jump to search
m
no edit summary
mNo edit summary
Line 1: Line 1:
This [https://arxiv.org/abs/1108.2879 example protocol] achieves the task of [[bit commitment]] securely by using a relativistic scheme.
This [https://arxiv.org/abs/1108.2879 example protocol] achieves the task of [[bit commitment]] securely by using a relativistic scheme.
In bit commitment, the commiter "commits" to a particular bit value.
In bit commitment, the committer "commits" to a particular bit value.
The receiver knows nothing about the committed bit value until the commiter chooses to do so (''hiding property'').
The receiver knows nothing about the committed bit value until the committer chooses to do so (''hiding property'').
The receiver has a guarantee that once committed, the commiter cannot change the committed bit value (''binding property'').
The receiver has a guarantee that once committed, the committer cannot change the committed bit value (''binding property'').
Information-theoretic secure bit commitment cannot be done with non-relativistic schemes see this review paper [https://arxiv.org/abs/quant-ph/9712023].  
Information-theoretic secure bit commitment cannot be done with non-relativistic schemes see this review paper [https://arxiv.org/abs/quant-ph/9712023].  


Line 15: Line 15:
* Quantum theory is correct.
* Quantum theory is correct.
* The background space-time is approximately Minkowski.
* The background space-time is approximately Minkowski.
* The commiter can signal at precisely light speed.
* The committer can signal at precisely light speed.
* All information processing is instantaneous.
* All information processing is instantaneous.


Line 44: Line 44:
* Secure classical channels between the parties and their agents.
* Secure classical channels between the parties and their agents.
* Basic state preparation abilities for the receiver.
* Basic state preparation abilities for the receiver.
* Instantaneous measurement capabilities for the commiter.
* Instantaneous measurement capabilities for the committer.


<br/>
<br/>
Line 58: Line 58:
==Pseudocode==
==Pseudocode==


The commiter and the receiver agree on the space-time origin point P and two light-like separated points where the two agents of each party will be stationed.
The committer and the receiver agree on the space-time origin point P and two light-like separated points where the two agents of each party will be stationed.


===Commitment Phase===
===Commitment Phase===
Write
90

edits

Navigation menu