Flexible quantum circuits using scalable continuous-variable cluster states
journal contribution
posted on 2024-11-23, 10:00 authored by Rafael Alexander, Nicolas MenicucciNicolas MenicucciWe show that measurement-based quantum computation on scalable continuous-variable (CV) cluster states admits more quantum-circuit flexibility and compactness than similar protocols for standard square-lattice CV cluster states. This advantage is a direct result of themacronode structure of these states-that is, a lattice structure in which each graph node actually consists of several physical modes. These extra modes provide additional measurement degrees of freedom at each graph location, which can be used to manipulate the flow and processing of quantum information more robustly and with additional flexibility that is not available on an ordinary lattice.
History
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Journal
Physical Review A: Atomic, Molecular, and Optical PhysicsVolume
93Number
62326Issue
6Start page
1End page
10Total pages
10Publisher
American Physical SocietyPlace published
United StatesLanguage
EnglishCopyright
© 2016 American Physical SocietyFormer Identifier
2006067433Esploro creation date
2020-06-22Fedora creation date
2017-01-05Open access
- Yes
