No-go theorem for environment-assisted invariance in non-unitary dynamics

We elucidate the requirements for quantum operations that achieve environment-assisted invariance (envariance), a symmetry of entanglement. While envariance has traditionally been studied within the framework of local unitary operations, we extend the analysis to consider non-unitary local operation...

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Published inNew journal of physics Vol. 27; no. 6; pp. 64509 - 64523
Main Authors Sone, Akira, Touil, Akram, Maeda, Kenji, Cappellaro, Paola, Deffner, Sebastian
Format Journal Article
LanguageEnglish
Published Bristol IOP Publishing 01.06.2025
Subjects
AdS/CFT
decoherence-free subspace
envariance
Invariance
Physics
shortcuts to adiabaticity
Subspaces
Symmetry
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Abstract We elucidate the requirements for quantum operations that achieve environment-assisted invariance (envariance), a symmetry of entanglement. While envariance has traditionally been studied within the framework of local unitary operations, we extend the analysis to consider non-unitary local operations. First, we investigate the conditions imposed on operators acting on pure bipartite entanglement to attain envariance. We show that the local operations must take a direct-sum form in their Kraus operator representations, establishing decoherence-free subspaces. Furthermore, we prove that this also holds for the multipartite scenario. As an immediate consequence, we demonstrate that environment-assisted shortcuts to adiabaticity cannot be achieved through non-unitary operations. In addition, we show that the static condition of the eternal black hole in AdS/CFT is violated when the CFTs are coupled to the external baths.
AbstractList We elucidate the requirements for quantum operations that achieve environment-assisted invariance (envariance), a symmetry of entanglement. While envariance has traditionally been studied within the framework of local unitary operations, we extend the analysis to consider non-unitary local operations. First, we investigate the conditions imposed on operators acting on pure bipartite entanglement to attain envariance. We show that the local operations must take a direct-sum form in their Kraus operator representations, establishing decoherence-free subspaces. Furthermore, we prove that this also holds for the multipartite scenario. As an immediate consequence, we demonstrate that environment-assisted shortcuts to adiabaticity cannot be achieved through non-unitary operations. In addition, we show that the static condition of the eternal black hole in AdS/CFT is violated when the CFTs are coupled to the external baths.
Author Sone, Akira
Cappellaro, Paola
Maeda, Kenji
Touil, Akram
Deffner, Sebastian
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  givenname: Akira
  surname: Sone
  fullname: Sone, Akira
  organization: The NSF AI Institute for Artificial Intelligence and Fundamental Interactions
– sequence: 2
  givenname: Akram
  surname: Touil
  fullname: Touil, Akram
  organization: Los Alamos National Laboratory Theoretical Division, Los Alamos, NM 87545, United States of America
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  givenname: Kenji
  surname: Maeda
  fullname: Maeda, Kenji
  organization: University of Massachusetts Department of Physics, Boston, MA 02125, United States of America
– sequence: 4
  givenname: Paola
  surname: Cappellaro
  fullname: Cappellaro, Paola
  organization: Massachusetts Institute of Technology Department of Physics, Cambridge, MA 02139, United States of America
– sequence: 5
  givenname: Sebastian
  orcidid: 0000-0003-0504-6932
  surname: Deffner
  fullname: Deffner, Sebastian
  organization: National Quantum Laboratory , College Park, MD 20740, United States of America
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Snippet We elucidate the requirements for quantum operations that achieve environment-assisted invariance (envariance), a symmetry of entanglement. While envariance...
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SubjectTerms AdS/CFT
decoherence-free subspace
envariance
Invariance
Physics
shortcuts to adiabaticity
Subspaces
Symmetry
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Title No-go theorem for environment-assisted invariance in non-unitary dynamics
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Volume 27
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