Natural Quantum Operational Semantics with Predicates

Sawerwain, Marek; Gielerak, Roman

doi:10.2478/v10006-008-0031-x

Cited by 8 publications

(3 citation statements)

References 27 publications

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“…Especially important seems to be the question of providing interesting examples where previously known tools and results are not directly applicable. This will be a main topic of a forthcoming paper see also [32] for some preliminary results.…”

Section: Discussionmentioning

confidence: 97%

Generalised quantum weakest preconditions

Gielerak

Sawerwain

2009

Quantum Inf Process

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Generalisation of the quantum weakest precondition result of D'Hondt and Panangaden is presented. In particular the most general notion of quantum predicate as positive operator valued measure (POVM) is introduced. The previously known quantum weakest precondition result has been extended to cover the case of POVM playing the role of a quantum predicate. Additionally, our result is valid in infinite dimension case and also holds for a quantum programs defined as a positive but not necessary completely positive transformations of a quantum states.Comment: 7 pages, no figures, added references, changed conten

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Section: Discussionmentioning

confidence: 97%

Generalised quantum weakest preconditions

Gielerak

Sawerwain

2009

Quantum Inf Process

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“…Introducing a definition of the transfer protocol based on a Hamiltonian and a unitary operator allows to describe the transfer ( Fig. 1) as an algorithm (or structural quantum program [23], [16]). A very important issue is the use of γ condition as an invariant for the protocol.…”

Section: Hamiltonian For a Transfer Protocol In A Qudit Spin Chainmentioning

confidence: 99%

“…The needed quantum state, for the spin chain with the number of nodes greater than two, we obtain by use of the partial trace operation. If ρ represents the state of the whole chain with N nodes then the state in the first (denoted as 1) and the last (described as N ) node we calculate as: Tr (2,3,...,i−k,...,N −2,N −1) (ρ) (23) where Tr (·) (ρ) is the partial trace operation.…”

Section: Remarkmentioning

confidence: 99%

The Entanglement Level and the Detection of Quantum Data Transfer Correctness in Short Qutrit Spin Chains

Sawerwain

Wiśniewska

2016

Wireless Pers Commun

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The quantum entanglement is an important feature of many protocols in the field of quantum computing. In this paper we evaluate a level of entanglement in short qutrit chains. This evaluation is carried out with use of the CCNR criterion and the concurrence measure. We also present some explicit formulae describing the values of CCNR criterion and concurrence for exemplary short spin chains. Utilizing the obtained results, we indicate that analyzing the level of entanglement allows to detect the noise or deviation in the transfer process, in comparison to the perfect transfer where only operation realizing transfer is present.Keywords quantum information transfer · qubit/qutrit chains · entanglement · ccnr criterion · concurrence · correctness of transfer · perfect transfer · numerical simulations IntroductionA phenomenon of quantum entanglement [12] is a fundamental feature of quantum systems. A presence of quantum entanglement in an examined system indicates system's quantum nature. The entanglement is also present in spin chains which became one of the essential elements of quantum physics and quantum computing [11], [19], [15].Using spin chains to transfer an information was shown for the first time in [5]. An issue of the perfect transfer was widely discussed in [6], [14], [24].

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Tracing of an Entanglement Level in Short Qubit and Qutrit Spin Chains

Sawerwain

Wiśniewska

2015

Computer Networks

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Natural Quantum Operational Semantics with Predicates

Cited by 8 publications

References 27 publications

Generalised quantum weakest preconditions

Generalised quantum weakest preconditions

The Entanglement Level and the Detection of Quantum Data Transfer Correctness in Short Qutrit Spin Chains

Tracing of an Entanglement Level in Short Qubit and Qutrit Spin Chains

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