A link between symmetries of critical states and the structure of SLOCC classes in multipartite systems

A link between symmetries of critical states and the structure of SLOCC classes in multipartite systems

Central in entanglement theory is the characterization of local transformations among pure multipartite states. As a first step towards such a characterization, one needs to identify those states which can be transformed into each other via local operations with a non-vanishing probability. The clas...

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Main Authors: Oskar Słowik, Martin Hebenstreit, Barbara Kraus, Adam Sawicki
Format: Article
Language:English
Published: Verein zur Förderung des Open Access Publizierens in den Quantenwissenschaften 2020-07-01
Series:Quantum
Online Access:https://quantum-journal.org/papers/q-2020-07-20-300/pdf/
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spelling doaj-92c6d6385c5c4843bd5e8d3de09dd1d42020-11-25T02:17:10ZengVerein zur Förderung des Open Access Publizierens in den QuantenwissenschaftenQuantum2521-327X2020-07-01430010.22331/q-2020-07-20-30010.22331/q-2020-07-20-300A link between symmetries of critical states and the structure of SLOCC classes in multipartite systemsOskar SłowikMartin HebenstreitBarbara KrausAdam SawickiCentral in entanglement theory is the characterization of local transformations among pure multipartite states. As a first step towards such a characterization, one needs to identify those states which can be transformed into each other via local operations with a non-vanishing probability. The classes obtained in this way are called SLOCC classes. They can be categorized into three disjoint types: the null-cone, the polystable states and strictly semistable states. Whereas the former two are well characterized, not much is known about strictly semistable states. We derive a criterion for the existence of the latter. In particular, we show that there exists a strictly semistable state if and only if there exist two polystable states whose orbits have different dimensions. We illustrate the usefulness of this criterion by applying it to tripartite states where one of the systems is a qubit. Moreover, we scrutinize all SLOCC classes of these systems and derive a complete characterization of the corresponding orbit types. We present representatives of strictly semistable classes and show to which polystable state they converge via local regular operators.https://quantum-journal.org/papers/q-2020-07-20-300/pdf/
collection DOAJ
language English
format Article
sources DOAJ
author Oskar Słowik
Martin Hebenstreit
Barbara Kraus
Adam Sawicki
spellingShingle Oskar Słowik
Martin Hebenstreit
Barbara Kraus
Adam Sawicki
A link between symmetries of critical states and the structure of SLOCC classes in multipartite systems
Quantum
author_facet Oskar Słowik
Martin Hebenstreit
Barbara Kraus
Adam Sawicki
author_sort Oskar Słowik
title A link between symmetries of critical states and the structure of SLOCC classes in multipartite systems
title_short A link between symmetries of critical states and the structure of SLOCC classes in multipartite systems
title_full A link between symmetries of critical states and the structure of SLOCC classes in multipartite systems
title_fullStr A link between symmetries of critical states and the structure of SLOCC classes in multipartite systems
title_full_unstemmed A link between symmetries of critical states and the structure of SLOCC classes in multipartite systems
title_sort link between symmetries of critical states and the structure of slocc classes in multipartite systems
publisher Verein zur Förderung des Open Access Publizierens in den Quantenwissenschaften
series Quantum
issn 2521-327X
publishDate 2020-07-01
description Central in entanglement theory is the characterization of local transformations among pure multipartite states. As a first step towards such a characterization, one needs to identify those states which can be transformed into each other via local operations with a non-vanishing probability. The classes obtained in this way are called SLOCC classes. They can be categorized into three disjoint types: the null-cone, the polystable states and strictly semistable states. Whereas the former two are well characterized, not much is known about strictly semistable states. We derive a criterion for the existence of the latter. In particular, we show that there exists a strictly semistable state if and only if there exist two polystable states whose orbits have different dimensions. We illustrate the usefulness of this criterion by applying it to tripartite states where one of the systems is a qubit. Moreover, we scrutinize all SLOCC classes of these systems and derive a complete characterization of the corresponding orbit types. We present representatives of strictly semistable classes and show to which polystable state they converge via local regular operators.
url https://quantum-journal.org/papers/q-2020-07-20-300/pdf/
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