@article{bda3a9f8434f4b52bfad1678c9d92081,
title = "Generalized Newton-Cartan geometries for particles and strings",
abstract = "We discuss the generalized Newton-Cartan geometries that can serve as gravitational background fields for particles and strings. In order to enable us to define affine connections that are invariant under all the symmetries of the structure group, we describe torsionful geometries with independent torsion tensors. A characteristic feature of the non-Lorentzian geometries we consider is that some of the torsion tensors are so-called {\textquoteleft}intrinsic torsion{\textquoteright} tensors. Setting some components of these intrinsic torsion tensors to zero leads to constraints on the geometry. For both particles and strings, we discuss various such constraints that can be imposed consistently with the structure group symmetries. In this way, we reproduce several results in the literature.",
keywords = "Newton-Cartan geometry, nonrelativistic gravity, nonrelativistic string theory",
author = "Bergshoeff, {E. A.} and {van Helden}, K. and J. Lahnsteiner and L. Romano and J. Rosseel",
note = "Funding Information: We would like to thank Jos{\'e} Figueroa-O{\textquoteright}Farrill, Quim Gomis, Julian Kupka, and Roland van der Veen for valuable discussions. K V H is funded by the Fundamentals of the Universe program at the University of Groningen. The work of LR has been initially supported by the FOM/NWO free program Scanning New Horizons and successively supported by Next Generation EU through the Maria Zambrano Grant from the Spanish Ministry of Universities under the Plan de Recuperacion, Transformacion y Resiliencia. Publisher Copyright: {\textcopyright} 2023 The Author(s). Published by IOP Publishing Ltd.",
year = "2023",
month = apr,
day = "6",
doi = "10.1088/1361-6382/acbe8c",
language = "English",
volume = "40",
journal = "Classical and Quantum Gravity",
issn = "0264-9381",
publisher = "IoP Publishing",
number = "7",
}