Nonrelativistic trace and diffeomorphism anomalies in particle number background

Roberto Auzzi; Stefano Baiguera; Giuseppe Nardelli

doi:10.1103/PhysRevD.97.085010

Nonrelativistic trace and diffeomorphism anomalies in particle number background

Roberto Auzzi, Stefano Baiguera, Giuseppe Nardelli

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

Using the heat kernel method, we compute nonrelativistic trace anomalies for Schrödinger theories in flat spacetime, with a generic background gauge field for the particle number symmetry, both for a free scalar and a free fermion. The result is genuinely nonrelativistic, and it has no counterpart in the relativistic case. Contrary to naive expectations, the anomaly is not gauge invariant; this is similar to the nongauge covariance of the non-Abelian relativistic anomaly. We also show that, in the same background, the gravitational anomaly for a nonrelativistic scalar vanishes.

Original language	English
Article number	085010
Journal	Physical Review D
Volume	97
Issue number	8
DOIs	https://doi.org/10.1103/PhysRevD.97.085010
State	Published - 11 Apr 2018
Externally published	Yes

ASJC Scopus subject areas

Physics and Astronomy (miscellaneous)

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10.1103/PhysRevD.97.085010

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title = "Nonrelativistic trace and diffeomorphism anomalies in particle number background",

abstract = "Using the heat kernel method, we compute nonrelativistic trace anomalies for Schr{\"o}dinger theories in flat spacetime, with a generic background gauge field for the particle number symmetry, both for a free scalar and a free fermion. The result is genuinely nonrelativistic, and it has no counterpart in the relativistic case. Contrary to naive expectations, the anomaly is not gauge invariant; this is similar to the nongauge covariance of the non-Abelian relativistic anomaly. We also show that, in the same background, the gravitational anomaly for a nonrelativistic scalar vanishes.",

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AB - Using the heat kernel method, we compute nonrelativistic trace anomalies for Schrödinger theories in flat spacetime, with a generic background gauge field for the particle number symmetry, both for a free scalar and a free fermion. The result is genuinely nonrelativistic, and it has no counterpart in the relativistic case. Contrary to naive expectations, the anomaly is not gauge invariant; this is similar to the nongauge covariance of the non-Abelian relativistic anomaly. We also show that, in the same background, the gravitational anomaly for a nonrelativistic scalar vanishes.

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Nonrelativistic trace and diffeomorphism anomalies in particle number background

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