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Paper 1

Low-depth quantum state preparation

Xiao-Ming Zhang, Man-Hong Yung, Xiao Yuan

Year: 2021
Journal: Physical Review Research
DOI: 10.1103/physrevresearch.3.043200
arXiv: -

No abstract.

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Paper 2

On Symmetry-Compatible Superselection Structures for Product States in 2D Quantum Spin Systems

Matthew Corbelli

Year: 2025
Journal: arXiv preprint
DOI: arXiv:2510.23790
arXiv: 2510.23790

We study superselection sectors in two-dimensional quantum spin systems with an on-site action of a compact abelian group $G$. Naaijkens and Ogata (2022) arXiv:2102.07707 showed that for states quasi-equivalent to a product state, the superselection structure is trivial, reflecting the absence of long-range entanglement. We consider a symmetry-compatible refinement of this setting, in which both the superselection criterion and the notion of equivalence between representations are required to respect the $G$-action. Under this stricter notion of equivalence, the sector structure for a $G$-equivariant product representation becomes nontrivial: the $G$-equivariant superselection sectors are classified by elements of the Pontryagin dual $\widehat{G}$. This shows that even in phases without long-range entanglement, imposing symmetry compatibility can lead to nontrivial sector structure.

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