Quantum Secret Sharing: Difference between revisions
(Initial filling with text) |
(Second batch) |
||
| Line 1: | Line 1: | ||
==Functionality Description== | ==Functionality Description== | ||
Quantum Secret Sharing (QSS) allows to transfer a quantum state (or a classical message encoded as quantum state), referred to as the secret, from Alice to Bob but only with the consent of a third-party, Charlie. A QSS protocol is generalizable to an arbitrary number of parties | Quantum Secret Sharing (QSS) allows to transfer a quantum state (or a classical message encoded as quantum state), referred to as the secret, from Alice to Bob but only with the consent of a third-party, Charlie. A QSS protocol is generalizable to an arbitrary number of parties consisting of one sender, one recipient, and all other parties being endorsers. In case of only two parties, sender and receiver, QSS is equivalent to [[Quantum Teleportation]]. Despite the no-cloning theorem not allowing the quantum secret to be in possession of more than one party at the same time, there exist QSS protocols that mimic classical secret sharing (see [[Quantum Secret Sharing#Further Details|Further Information]]). | ||
'''Tags:''' [[:Category: Building Blocks|Building Blocks]], [[:Category: Multi Party Protocols|Multi Party]], [[:Category: Quantum Enhanced Classical Functionality|Quantum Enhanced Classical Functionality]] | '''Tags:''' [[:Category: Building Blocks|Building Blocks]], [[:Category: Multi Party Protocols|Multi Party]], [[:Category: Quantum Enhanced Classical Functionality|Quantum Enhanced Classical Functionality]] | ||
| Line 15: | Line 15: | ||
==Protocols== | ==Protocols== | ||
( | #[[Quantum Secret Sharing using GHZ States]][[Quantum Secret Sharing#References|(4)]] | ||
#[[Verifiable Quantum Secret Sharing]] (VQSS) | |||
==Properties== | ==Properties== | ||
QSS is inspired by classical secret sharing (CSS), but has one fundamental difference due to the no-cloning theorem. In CSS, Alice shares a secret among <math>n</math> parties and any team of <math>t</math> parties or more, with <math>t \leq n</math>, has full access to the secret, whereas <math>t-1</math> collaborating parties or less have no information about the secret at all. Such <math>(t, n)</math>-threshold schemes are not | * Confidentiality: QSS with one dishonest party not following the protocol must guarantee that no information about the quantum secret at all is revealed to any party. | ||
* Security: Every protocol must ensure that no information about the secret is leaked to an external eavesdropper. | |||
==Further Information== | |||
QSS is inspired by classical secret sharing (CSS), but has one fundamental difference due to the no-cloning theorem. In CSS, Alice shares a secret among <math>n</math> parties and any team of <math>t</math> parties or more, with <math>t \leq n</math>, has full access to the secret, whereas <math>t-1</math> collaborating parties or less have no information about the secret at all. Such <math>(t, n)</math>-threshold schemes are not straightforward to implement for QSS, since the no-cloning theorem forbids that quantum states are copied, resulting in only one party, the receiver, obtaining the quantum secret from Alice, who looses hers during the process. However, <math>(t, n)</math> schemes can be built through sequentially running several QSS rounds.[[Quantum Secret Sharing#References|(5)]] | |||
==References== | ==References== | ||
| Line 25: | Line 30: | ||
#[https://arxiv.org/abs/quant-ph/9910067 Gottesman (1999)] | #[https://arxiv.org/abs/quant-ph/9910067 Gottesman (1999)] | ||
#[https://arxiv.org/abs/quant-ph/9806063 Hillery et al (1998)] | #[https://arxiv.org/abs/quant-ph/9806063 Hillery et al (1998)] | ||
#[https://arxiv.org/abs/1710.11600 Lu et al (2018)] | |||
<div style='text-align: right;'>''contributed by Peter Limacher''</div> | <div style='text-align: right;'>''contributed by Peter Limacher''</div> | ||
Latest revision as of 18:15, 13 September 2019
Functionality Description[edit]
Quantum Secret Sharing (QSS) allows to transfer a quantum state (or a classical message encoded as quantum state), referred to as the secret, from Alice to Bob but only with the consent of a third-party, Charlie. A QSS protocol is generalizable to an arbitrary number of parties consisting of one sender, one recipient, and all other parties being endorsers. In case of only two parties, sender and receiver, QSS is equivalent to Quantum Teleportation. Despite the no-cloning theorem not allowing the quantum secret to be in possession of more than one party at the same time, there exist QSS protocols that mimic classical secret sharing (see Further Information).
Tags: Building Blocks, Multi Party, Quantum Enhanced Classical Functionality
Use Cases[edit]
- QSS can replace certain classical secret sharing scenarios with unconditional security.(1)
- Secret sharing is a very common building block in other protocols:(2)
- Secure Multiparty Delegated Quantum Computation
- Leader election and Byzantine Agreement
- Error correction in quantum computers(3)
- Bank transfers with third party endorsement, see Quantum Cheque
Protocols[edit]
Properties[edit]
- Confidentiality: QSS with one dishonest party not following the protocol must guarantee that no information about the quantum secret at all is revealed to any party.
- Security: Every protocol must ensure that no information about the secret is leaked to an external eavesdropper.
Further Information[edit]
QSS is inspired by classical secret sharing (CSS), but has one fundamental difference due to the no-cloning theorem. In CSS, Alice shares a secret among parties and any team of parties or more, with , has full access to the secret, whereas collaborating parties or less have no information about the secret at all. Such -threshold schemes are not straightforward to implement for QSS, since the no-cloning theorem forbids that quantum states are copied, resulting in only one party, the receiver, obtaining the quantum secret from Alice, who looses hers during the process. However, schemes can be built through sequentially running several QSS rounds.(5)
