Editing Quantum Key Distribution
The edit can be undone. Please check the comparison below to verify that this is what you want to do, and then publish the changes below to finish undoing the edit.
Latest revision | Your text | ||
Line 6: | Line 6: | ||
[[Category: Two Party Protocols]] [[Category: Quantum Enhanced Classical Functionality]] [[Category:Specific Task]] | [[Category: Two Party Protocols]] [[Category: Quantum Enhanced Classical Functionality]] [[Category:Specific Task]] | ||
== Use | == Use Cases == | ||
* QKD can replace Diffie-Hellman key agreement protocols. For example in TLS, SSL, IPsec, etc. | * QKD can replace Diffie-Hellman key agreement protocols. For example in TLS, SSL, IPsec, etc. | ||
* If secure key rate is sufficiently high, one can use QKD to generate a secure key that will be used for information theoretically secure authenticated encryption scheme, e.g. using one-time pad together with an authentication scheme like those presented in [[Quantum Key Distribution #References|[1] ]]. | * If secure key rate is sufficiently high, one can use QKD to generate a secure key that will be used for information theoretically secure authenticated encryption scheme, e.g. using one-time pad together with an authentication scheme like those presented in [[Quantum Key Distribution #References|[1] ]]. | ||
==Protocols== | ==Protocols== | ||
Line 33: | Line 31: | ||
==Further Information== | ==Further Information== | ||
The security definition presented here, are proven to be sufficient to guarantee universal composability for standard QKD in [[Quantum Key Distribution #References|[2] ]]. For device-independent quantum key distribution, attacks presented in [[Quantum Key Distribution #References|[3] ]] show that security can be compromised if the same devices are used to implement another instance of the protocol. | The security definition presented here, are proven to be sufficient to guarantee universal composability for standard QKD in [[Quantum Key Distribution #References|[2] ]]. For device-independent quantum key distribution, attacks presented in [[Quantum Key Distribution #References|[3] ]] show that security can be compromised if the same devices are used to implement another instance of the protocol. | ||
==References== | ==References== |