Two-Dimensional Gravitational Anomalies, Schwinger Terms, and Dispersion Relations

Bertlmann, Reinhold A.; Kohlprath, Emmanuel

doi:10.1006/aphy.2000.6110

Cited by 92 publications

(140 citation statements)

References 67 publications

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“…This sector contains the following FPD invariant expressions (n FPD = 3): 27) where Tr(K 2 ) ≡ K αβ K αβ . The integrated ghost number one expressions are I i = √ −gσφ i .…”

Section: Parity Even Sector With Two Time Derivativesmentioning

confidence: 99%

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Lifshitz scale anomalies

Arav

Chapman

2015

J. High Energ. Phys.

106

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We analyse scale anomalies in Lifshitz field theories, formulated as the relative cohomology of the scaling operator with respect to foliation preserving diffeomorphisms. We construct a detailed framework that enables us to calculate the anomalies for any number of spatial dimensions, and for any value of the dynamical exponent. We derive selection rules, and establish the anomaly structure in diverse universal sectors. We present the complete cohomologies for various examples in one, two and three space dimensions for several values of the dynamical exponent. Our calculations indicate that all the Lifshitz scale anomalies are trivial descents, called B-type in the terminology of conformal anomalies. However, not all the trivial descents are cohomologically non-trivial. We compare the conformal anomalies to Lifshitz scale anomalies with a dynamical exponent equal to one.

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“…This sector contains the following FPD invariant expressions (n FPD = 3): 27) where Tr(K 2 ) ≡ K αβ K αβ . The integrated ghost number one expressions are I i = √ −gσφ i .…”

Section: Parity Even Sector With Two Time Derivativesmentioning

confidence: 99%

“…20 The anomalous Ward identities that correspond to the Lorentz anomaly in conformal theories are well known, and given by (see e.g. [25,27,28]):…”

mentioning

confidence: 99%

Lifshitz scale anomalies

Arav

Chapman

2015

J. High Energ. Phys.

106

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“…If we neglect the ingoing modes in the region near the horizon, because they can not classically affect physics outside the horizon, then the effective twodimensional theory becomes chiral. As it is known [20,21,22,23,24] a two-dimensional chiral theory exhibits a gravitational anomaly. The consistent gravitational anomaly for right-handed fields reads [20,22] …”

Section: Hawking Radiation From Topological Black Holesmentioning

confidence: 99%

Hawking radiation via gravitational anomalies in nonspherical topologies

Papantonopoulos

Skamagoulis

2009

Phys. Rev. D

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“…Quite generally a quantum state can be decomposed as in Eq. (58), where the last term, the spin-spin term, is the important one to characterize entanglement. If we parameterize the spin-spin space by…”

Section: Geometry Of Quantum States: Entanglement Versus Separabilitymentioning

confidence: 99%

Bell’s Universe: A Personal Recollection

Bertlmann

2016

Quantum [Un]Speakables II

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My collaboration and friendship with John Bell is recollected. I will explain his outstanding contributions in particle physics, in accelerator physics, and his joint work with Mary Bell. Mary's work in accelerator physics is also summarized. I recall our quantum debates, mention some personal reminiscences, and give my personal view on Bell's fundamental work on quantum theory, in particular, on the concept of contextuality and nonlocality of quantum physics. Finally, I describe the huge influence Bell had on my own work, in particular on entanglement and Bell inequalities in particle physics and their experimental verification, and on mathematical physics, where some geometric aspects of the quantum states are illustrated.

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Two-Dimensional Gravitational Anomalies, Schwinger Terms, and Dispersion Relations

Cited by 92 publications

References 67 publications

Lifshitz scale anomalies

Lifshitz scale anomalies

Hawking radiation via gravitational anomalies in nonspherical topologies

Bell’s Universe: A Personal Recollection

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