Related papers: Quantum secure dialogue with quantum encryption

Quantum secure dialogue with quantum encryption

URL: http://arxiv.org/abs/2205.01881v1
Date: Wed, 4 May 2022 04:05:49 GMT
Title: Quantum secure dialogue with quantum encryption
Authors: Tian-Yu Ye
Abstract summary: We propose a novel approach for sharing the initial quantum state privately between communicators. The proposed protocol uses EPR pairs as the private quantum key to encrypt and decrypt the traveling photons. The information-theoretical efficiency of the proposed protocol is nearly 100%, much higher than previous information leakage resistant quantum dialogue protocols.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: How to solve the information leakage problem has become the research focus of quantum dialogue. In this paper, in order to overcome the information leakage problem in quantum dialogue, a novel approach for sharing the initial quantum state privately between communicators, i.e., quantum encryption sharing, is proposed by utilizing the idea of quantum encryption. The proposed protocol uses EPR pairs as the private quantum key to encrypt and decrypt the traveling photons, which can be repeatedly used after rotation. Due to quantum encryption sharing, the public announcement on the state of the initial quantum state is omitted, thus the information leakage problem is overcome. The information-theoretical efficiency of the proposed protocol is nearly 100%, much higher than previous information leakage resistant quantum dialogue protocols. Moreover, the proposed protocol only needs single-photon measurements and nearly uses single photons as quantum resource so that it is convenient to implement in practice.

Related papers

Towards efficient and secure quantum-classical communication networks [47.27205216718476]
There are two primary approaches to achieving quantum-resistant security: quantum key distribution (QKD) and post-quantum cryptography (PQC) We introduce the pros and cons of these protocols and explore how they can be combined to achieve a higher level of security and/or improved performance in key distribution. We hope our discussion inspires further research into the design of hybrid cryptographic protocols for quantum-classical communication networks.
arXiv Detail & Related papers (2024-11-01T23:36:19Z)
Revocable Encryption, Programs, and More: The Case of Multi-Copy Security [48.53070281993869]
We show the feasibility of revocable primitives, such as revocable encryption and revocable programs. This suggests that the stronger notion of multi-copy security is within reach in unclonable cryptography.
arXiv Detail & Related papers (2024-10-17T02:37:40Z)
Secured Quantum Identity Authentication Protocol for Quantum Networks [2.3317857568404032]
This paper proposes a quantum identity authentication protocol that protects quantum networks from malicious entanglements. Unlike the existing protocols, the proposed quantum authentication protocol does not require periodic refreshments of the shared secret keys.
arXiv Detail & Related papers (2023-12-10T05:36:49Z)
Secure Key from Quantum Discord [22.97866257572447]
We show how to make use of discord to analyze security in a specific quantum cryptography protocol. Our method is robust against imperfections in qubit sources and qubit measurements as well as basis misalignment due to quantum channels.
arXiv Detail & Related papers (2023-04-12T14:21:49Z)
Oblivious Quantum Computation and Delegated Multiparty Quantum Computation [61.12008553173672]
We propose a new concept, oblivious computation quantum computation, where secrecy of the input qubits and the program to identify the quantum gates are required. Exploiting quantum teleportation, we propose a two-server protocol for this task. Also, we discuss delegated multiparty quantum computation, in which, several users ask multiparty quantum computation to server(s) only using classical communications.
arXiv Detail & Related papers (2022-11-02T09:01:33Z)
Quantum Semantic Communications for Resource-Efficient Quantum Networking [52.3355619190963]
This letter proposes a novel quantum semantic communications (QSC) framework exploiting advancements in quantum machine learning and quantum semantic representations. The proposed framework achieves approximately 50-75% reduction in quantum communication resources needed, while achieving a higher quantum semantic fidelity.
arXiv Detail & Related papers (2022-05-05T03:49:19Z)
Fault tolerant channel-encrypting quantum dialogue against collective noise [0.0]
Two fault tolerant channel-encrypting quantum dialogue protocols against collective noise are presented. One is against collective-dephasing noise, while the other is against collective-rotation noise. Einstein-Podolsky-Rosen pairs, which play the role of private quantum key, are securely shared between two participants.
arXiv Detail & Related papers (2022-05-05T02:56:29Z)
Interactive Protocols for Classically-Verifiable Quantum Advantage [46.093185827838035]
"Interactions" between a prover and a verifier can bridge the gap between verifiability and implementation. We demonstrate the first implementation of an interactive quantum advantage protocol, using an ion trap quantum computer.
arXiv Detail & Related papers (2021-12-09T19:00:00Z)
A practical quantum encryption protocol with varying encryption configurations [0.0]
We propose a quantum encryption protocol that utilizes a quantum algorithm to create blocks oftext ciphers based on quantum states. The main feature of our quantum encryption protocol is that the encryption configuration of each block is determined by the previous blocks.
arXiv Detail & Related papers (2021-01-22T20:09:03Z)
High key rate quantum conference key agreement with unconditional security [13.32599647155171]
Quantum conference key agreement (CKA) is an important cryptographic primitive of quantum cryptography. We propose a quantum CKA protocol of three users with information-theoretic security. Our scheme can be widely implemented in the approaching large-scale quantum network.
arXiv Detail & Related papers (2020-06-18T01:47:17Z)
Single-Shot Secure Quantum Network Coding for General Multiple Unicast Network with Free One-Way Public Communication [56.678354403278206]
We propose a canonical method to derive a secure quantum network code over a multiple unicast quantum network. Our code correctly transmits quantum states when there is no attack. It also guarantees the secrecy of the transmitted quantum state even with the existence of an attack.
arXiv Detail & Related papers (2020-03-30T09:25:13Z)

This list is automatically generated from the titles and abstracts of the papers in this site.