%0 Journal Article %1 banerjee2023geometric %A Banerjee, Souvik %A Dorband, Moritz %A Erdmenger, Johanna %A Weigel, Anna-Lena %D 2023 %J J. High Energy Phys. %K a %N 10 %P 26-- %R 10.1007/JHEP10(2023)026 %T Geometric phases characterise operator algebras and missing information %U https://doi.org/10.1007/JHEP10(2023)026 %V 2023 %X We show how geometric phases may be used to fully describe quantum systems, with or without gravity, by providing knowledge about the geometry and topology of its Hilbert space. We find a direct relation between geometric phases and von Neumann algebras. In particular, we show that a vanishing geometric phase implies the existence of a well-defined trace functional on the algebra. We discuss how this is realised within the AdS/CFT correspondence for the eternal black hole. On the other hand, a non-vanishing geometric phase indicates missing information for a local observer, associated to reference frames covering only parts of the quantum system considered. We illustrate this with several examples, ranging from a single spin in a magnetic field to Virasoro Berry phases and the geometric phase associated to the eternal black hole in AdS spacetime. For the latter, a non-vanishing geometric phase is tied to the presence of a centre in the associated von Neumann algebra.

@article{banerjee2023geometric, abstract = {We show how geometric phases may be used to fully describe quantum systems, with or without gravity, by providing knowledge about the geometry and topology of its Hilbert space. We find a direct relation between geometric phases and von Neumann algebras. In particular, we show that a vanishing geometric phase implies the existence of a well-defined trace functional on the algebra. We discuss how this is realised within the AdS/CFT correspondence for the eternal black hole. On the other hand, a non-vanishing geometric phase indicates missing information for a local observer, associated to reference frames covering only parts of the quantum system considered. We illustrate this with several examples, ranging from a single spin in a magnetic field to Virasoro Berry phases and the geometric phase associated to the eternal black hole in AdS spacetime. For the latter, a non-vanishing geometric phase is tied to the presence of a centre in the associated von Neumann algebra.}, added-at = {2023-11-28T11:19:19.000+0100}, author = {Banerjee, Souvik and Dorband, Moritz and Erdmenger, Johanna and Weigel, Anna-Lena}, biburl = {https://www.bibsonomy.org/bibtex/249bf9c9676ae155098375ac9bd6f27d5/ctqmat}, day = 05, doi = {10.1007/JHEP10(2023)026}, interhash = {f98c203685085c7087d5b150736eb61b}, intrahash = {49bf9c9676ae155098375ac9bd6f27d5}, issn = {10298479}, journal = {J. High Energy Phys.}, keywords = {a}, month = {10}, number = 10, pages = {26--}, refid = {Banerjee2023}, timestamp = {2023-11-28T11:19:19.000+0100}, title = {Geometric phases characterise operator algebras and missing information}, url = {https://doi.org/10.1007/JHEP10(2023)026}, volume = 2023, year = 2023 }