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Matrix-product unitaries: Beyond quantum cellular automata
arXiv
Authors: Georgios Styliaris, Rahul Trivedi, David Pérez-García, J. Ignacio Cirac
Year
2024
Paper ID
66505
Status
Preprint
Abstract Read
~2 min
Abstract Words
149
Citations
N/A
Abstract
Matrix-product unitaries (MPU) are 1D tensor networks describing time evolution and unitary symmetries of quantum systems, while their action on states by construction preserves the entanglement area law. MPU which are formed by a single repeated tensor are known to coincide with 1D quantum cellular automata (QCA), i.e., unitaries with an exact light cone. However, this correspondence breaks down for MPU with open boundary conditions, even if the resulting operator is translation-invariant. Such unitaries can turn short- to long-range correlations and thus alter the underlying phase of matter. Here we make the first steps towards a theory of MPU with uniform bulk but arbitrary boundary. In particular, we study the structure of a subclass with a direct-sum form which maximally violates the QCA property. We also consider the general case of MPU formed by site-dependent (nonuniform) tensors and show a correspondence between MPU and locally maximally entanglable states.
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- It adds a 2024 reference point for readers tracking recent quantum research.
- Matrix-product unitaries (MPU) are 1D tensor networks describing time evolution and unitary symmetries of quantum systems, while their action on states by construction...
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