Arpita Mitra scite author profile

Newtonian gravity was formulated as a geometrodynamic theory as far back in 1930s by Elie Cartan in what is named aptly as Newton Cartan space time. Though there are several approaches of realizing the algebraic structure of the Newton Cartan geometry from a contraction of the relativistic results, a dynamical (field theoretic) realization of it is lacking. In this paper we present such a realization from the localisation of the Galilean Symmetry of nonrelativistic matter field theories.

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A new formulation of non-relativistic diffeomorphism invariance

Banerjee

Mitra

Mukherjee³

2014

Physics Letters B

146

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We provide a new formulation of nonrelativistic diffeomorphism invariance. It is generated by localising the usual global Galilean Symmetry. The correspondence with the type of diffeomorphism invariant models currently in vogue in the theory of fractional quantum Hall effect has been discussed. Our construction is shown to open up a general approach of model building in theoretical condensed matter physics. Also, this formulation has the capacity of obtaining Newton - Cartan geometry from the gauge procedure.Comment: minor changes, new reference added, to appear in PL

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General algorithm for nonrelativistic diffeomorphism invariance

Banerjee

Mitra²,

Mukherjee³

2015

Phys. Rev. D

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An algorithmic approach towards the formulation of non-relativistic diffeomorphism invariance has been developed which involves both matter and gauge fields. A step by step procedure has been provided which can accommodate all types of (abelian) gauge interaction. The algorithm is applied to the problem of a two dimensional electron moving under an external field and also under the Chern-Simons dynamics.

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Classical Soft Theorem in the AdS-Schwarzschild spacetime in small cosmological constant limit

Banerjee

Bhattacharjee

Mitra

2021

J. High Energ. Phys.

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We have studied scattering of a probe particle by a four dimensional AdS-Schwarzschild black hole at large impact factor. Our analysis is consistent perturbatively to leading order in the AdS radius and black hole mass parameter. Next we define a proper “soft limit” of the radiation and extract out the “soft factor” from it. We find the correction to the well known flat space Classical Soft graviton theorem due to the presence of an AdS background.

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Gravitational anomalies on the Newton-Cartan background

Fernandes

Mitra

2017

Phys. Rev. D

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We derive the trace and diffeomorphism anomalies of the Schrödinger field minimally coupled to the Newton-Cartan background using Fujikawa's path integral approach. This approach in particular enables us to calculate the one-loop contributions due to all the fields of the NewtonCartan structure. We determine the coefficients and demonstrate that gravitational anomalies for this theory always arise in odd dimensions. Due to the gauge field contribution of the background we find that in 2 + 1 dimensions the trace anomaly contains terms which have a form similar to that of the 1 + 1 and 3 + 1 dimensional relativistic trace anomalies. This result reveals that the Newton-Cartan background which satisfies the Frobenius condition possesses a Type A trace anomaly in contrast with the result of Lishitz spacetimes. As an application we demonstrate that the coefficient of the term similar to the 1 + 1 dimensional relativistic trace anomaly satisfies a c-theorem condition.

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Arpita Mitra

Localization of the Galilean symmetry and dynamical realization of Newton–Cartan geometry

A new formulation of non-relativistic diffeomorphism invariance

General algorithm for nonrelativistic diffeomorphism invariance

Classical Soft Theorem in the AdS-Schwarzschild spacetime in small cosmological constant limit

Gravitational anomalies on the Newton-Cartan background

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