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Quantum key distribution allows two parties, traditionally known as Alice and Bob, to establish a secure random cryptographic key if, firstly, they have access to a quantum communication channel, and secondly, they can exchange classical…

量子物理 · 物理学 2007-05-23 Matthias Christandl , Renato Renner , Artur Ekert

A user, Alice, wants to get server Bob to implement a quantum computation for her. However, she wants to leave him blind to what she's doing. What are the minimal communication resources Alice must use in order to achieve…

量子物理 · 物理学 2025-10-21 Ethan Davies , Alastair Kay

In usual security proofs of quantum protocols the adversary (Eve) is expected to have full control over any quantum communication between any communicating parties (Alice and Bob). Eve is also expected to have full access to an…

量子物理 · 物理学 2013-01-17 Jan Bouda , Matej Pivoluska , Martin Plesch , Colin Wilmott

A locking protocol between two parties is as follows: Alice gives an encrypted classical message to Bob which she does not want Bob to be able to read until she gives him the key. If Alice is using classical resources, and she wants to…

量子物理 · 物理学 2011-12-13 S. Boixo , L. Aolita , D. Cavalcanti , K. Modi , A. Winter

Bit commitment involves the submission of evidence from one party to another so that the evidence can be used to confirm a later revealed bit value by the first party, while the second party cannot determine the bit value from the evidence…

量子物理 · 物理学 2007-05-23 Horace P. Yuen

In this paper, we present a first step towards a formalisation of the Quantum Key Distribution algorithm in Isabelle. We focus on the formalisation of the main probabilistic argument why Bob cannot be certain about the key bit sent by Alice…

密码学与安全 · 计算机科学 2019-05-02 Florian Kammüller

The security of the previous quantum key distribution protocols, which is guaranteed by the nature of physics law, is based on the legitimate users. However, the impersonation of Alice or Bob by eavesdropper, in practice. will be existed in…

量子物理 · 物理学 2007-05-23 Guihua Zeng

String commitment schemes are similar to the well studied bit commitment schemes in cryptography with the difference that the committing party, say Alice, is supposed to commit a long string instead of a single bit, to another party say…

量子物理 · 物理学 2008-07-08 Rahul Jain

It has been conjectured that counterfactual communication is impossible, even for post-selected quantum particles. We strongly challenge this by proposing precisely such a counterfactual scheme where -- unambiguously -- none of Alice's…

量子物理 · 物理学 2022-05-19 Hatim Salih , Will McCutcheon , Jonte Hance , John Rarity

Quantum mechanical effects have enabled the construction of cryptographic primitives that are impossible classically. For example, quantum copy-protection allows for a program to be encoded in a quantum state in such a way that the program…

量子物理 · 物理学 2022-09-07 Alexandru Gheorghiu , Tony Metger , Alexander Poremba

In a recent paper (Phys. Rev. Lett. 109, 160501 (2012). arXiv:1201.0849), it is claimed that any quantum protocol for classical two-sided computation between Alice and Bob can be proven completely insecure for Alice if it is secure against…

量子物理 · 物理学 2012-11-06 Guang Ping He

A quantum password is a quantum mechanical analogue of the classical password. Our proposal is completely quantum mechanical in nature, i.e. at no point is information stored and manipulated classically. We show that, in contrast to quantum…

量子物理 · 物理学 2012-03-08 Mile Gu , Christian Weedbrook

We explain the mechanism of the quantum speed-up - quantum algorithms requiring fewer computation steps than their classical equivalent - for a family of algorithms. Bob chooses a function and gives to Alice the black box that computes it.…

量子物理 · 物理学 2015-05-27 Giuseppe Castagnoli

An open quantum system leaks information into its environment. In some circumstances it is possible for an observer, say Alice, to recover that information, as a classical measurement record, in a variety of different ways, using different…

量子物理 · 物理学 2025-11-18 Areeya Chantasri , Kiarn T. Laverick , Howard M. Wiseman

Quantum Key Distribution is a quantum communication technique in which random numbers are encoded on quantum systems, usually photons, and sent from one party, Alice, to another, Bob. Using the data sent via the quantum signals,…

量子物理 · 物理学 2014-09-09 T. C. Ralph , N. Walk

A new paradigm for secure communication, based on quantum illumination, is proposed. Alice uses spontaneous parametric down-conversion to send Bob a set of signal modes over a pure-loss channel while retaining the set of idler modes with…

量子物理 · 物理学 2009-04-28 Jeffrey H. Shapiro

We present a quantum scheme for signing contracts between two clients (Alice and Bob) using entangled states and the services of a third trusted party (Trent). The trusted party is only contacted for the initialization of the protocol, and…

量子物理 · 物理学 2019-09-04 P. Yadav , P. Mateus , N. Paunković , A. Souto

The cryptographic protocol of coin tossing consists of two parties, Alice and Bob, that do not trust each other, but want to generate a random bit. If the parties use a classical communication channel and have unlimited computational…

量子物理 · 物理学 2009-11-13 A. T. Nguyen , J. Frison , K. Phan Huy , S. Massar

The uncertainty principle sets lower bound on the uncertainties of two incompatible observables measured on a particle. The uncertainty lower bound can be reduced by considering a particle as a quantum memory entangled with the measured…

量子物理 · 物理学 2016-11-10 F. Adabi , S. Haseli , S. Salimi

Secure communication protocols are becoming increasingly important, e.g. for internet-based communication. Quantum key distribution allows two parties, commonly called Alice and Bob, to generate a secret sequence of 0s and 1s called a key…

物理教育 · 物理学 2017-04-05 Antje Kohnle , Aluna Rizzoli