Light-cone fluctuations in flat spacetimes with nontrivial topology

Abstract Two dimensional field theories with Bondi-Metzner-Sachs symmetry have been proposed as duals to asymptotically flat spacetimes in three dimensions. These field theories are naturally defined on null surfaces and hence are conformal cousins of Carrollian theories, where the speed of light goes to zero. In this paper, we initiate an investigation of anomalies in these field theories. Specifically, we focus on the BMS equivalent of Weyl invariance and its breakdown in these field theories and derive an expression for Weyl anomaly. Considering the transformation of partition functions under this symmetry, we derive a Carrollian Liouville action different from ones obtained in the literature earlier.

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Strong vertices of doubly heavy spin- 3/2 –spin- 1/2 baryons with light mesons in light-cone QCD sum rules

Physical Review D ◽

10.1103/physrevd.103.054044 ◽

2021 ◽

Vol 103 (5) ◽

Author(s):

T. M. Aliev ◽

K. Şimşek

Keyword(s):

Light Cone ◽

Sum Rules ◽

Qcd Sum Rules ◽

Light Mesons

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Soft photon theorem in the small negative cosmological constant limit

Journal of High Energy Physics ◽

10.1007/jhep08(2021)105 ◽

2021 ◽

Vol 2021 (8) ◽

Author(s):

Nabamita Banerjee ◽

Karan Fernandes ◽

Arpita Mitra

Keyword(s):

Cosmological Constant ◽

Tree Level ◽

Leading Order ◽

Asymptotically Flat ◽

Soft Factor ◽

Flat Spacetime ◽

Electromagnetic Interactions ◽

Flat Spacetimes ◽

Perturbative Corrections ◽

Soft Factors

Abstract We study the effect of electromagnetic interactions on the classical soft theorems on an asymptotically AdS background in 4 spacetime dimensions, in the limit of a small cosmological constant or equivalently a large AdS radius l. This identifies 1/l2 perturbative corrections to the known asymptotically flat spacetime leading and subleading soft factors. Our analysis is only valid to leading order in 1/l2. The leading soft factor can be expected to be universal and holds beyond tree level. This allows us to derive a 1/l2 corrected Ward identity, following the known equivalence between large gauge Ward identities and soft theorems in asymptotically flat spacetimes.

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Non-Hermitian route to higher-order topology in an acoustic crystal

Nature Communications ◽

10.1038/s41467-021-22223-y ◽

2021 ◽

Vol 12 (1) ◽

Author(s):

He Gao ◽

Haoran Xue ◽

Zhongming Gu ◽

Tuo Liu ◽

Jie Zhu ◽

...

Keyword(s):

Higher Order ◽

Order Topology ◽

Topological Phases ◽

Edge States ◽

Experimental Realization ◽

Artificial Materials ◽

Intrinsic Loss ◽

Topological Phases Of Matter ◽

Hierarchical Features ◽

Nontrivial Topology

AbstractTopological phases of matter are classified based on their Hermitian Hamiltonians, whose real-valued dispersions together with orthogonal eigenstates form nontrivial topology. In the recently discovered higher-order topological insulators (TIs), the bulk topology can even exhibit hierarchical features, leading to topological corner states, as demonstrated in many photonic and acoustic artificial materials. Naturally, the intrinsic loss in these artificial materials has been omitted in the topology definition, due to its non-Hermitian nature; in practice, the presence of loss is generally considered harmful to the topological corner states. Here, we report the experimental realization of a higher-order TI in an acoustic crystal, whose nontrivial topology is induced by deliberately introduced losses. With local acoustic measurements, we identify a topological bulk bandgap that is populated with gapped edge states and in-gap corner states, as the hallmark signatures of hierarchical higher-order topology. Our work establishes the non-Hermitian route to higher-order topology, and paves the way to exploring various exotic non-Hermiticity-induced topological phases.

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Light-cone sum rules for proton decay

Journal of High Energy Physics ◽

10.1007/jhep05(2021)258 ◽

2021 ◽

Vol 2021 (5) ◽

Author(s):

Ulrich Haisch ◽

Amando Hala

Keyword(s):

Lattice Qcd ◽

Light Cone ◽

Sum Rules ◽

State Of The Art ◽

Form Factors ◽

Baryon Number ◽

Proton Decay ◽

Matrix Elements ◽

Decay Channels ◽

Systematic Uncertainties

Abstract We estimate the form factors that parametrise the hadronic matrix elements of proton-to-pion transitions with the help of light-cone sum rules. These form factors are relevant for semi-leptonic proton decay channels induced by baryon-number violating dimension-six operators, as typically studied in the context of grand unified theories. We calculate the form factors in a kinematical regime where the momentum transfer from the proton to the pion is space-like and extrapolate our final results to the regime that is relevant for proton decay. In this way, we obtain estimates for the form factors that show agreement with the state-of-the-art calculations in lattice QCD, if systematic uncertainties are taken into account. Our work is a first step towards calculating more involved proton decay channels where lattice QCD results are not available at present.

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Masslessness and light-cone propagation in 3+2 de Sitter and 2+1 Minkowski spaces

Physical Review D ◽

10.1103/physrevd.33.415 ◽

1986 ◽

Vol 33 (2) ◽

pp. 415-420 ◽

Cited By ~ 14

Author(s):

M. Flato ◽

C. Fronsdal ◽

J. P. Gazeau

Keyword(s):

Light Cone ◽

De Sitter ◽

Minkowski Spaces

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Observations of Hawking radiation: the Page curve and baby universes

Journal of High Energy Physics ◽

10.1007/jhep04(2021)272 ◽

2021 ◽

Vol 2021 (4) ◽

Author(s):

Donald Marolf ◽

Henry Maxfield

Keyword(s):

Black Holes ◽

Quantum Systems ◽

Late Time ◽

Asymptotically Flat ◽

Black Hole Information ◽

Flat Spacetimes ◽

The Cost ◽

Baby Universes ◽

Time Extrapolation ◽

Asymptotic Observers

AbstractWe reformulate recent insights into black hole information in a manner emphasizing operationally-defined notions of entropy, Lorentz-signature descriptions, and asymptotically flat spacetimes. With the help of replica wormholes, we find that experiments of asymptotic observers are consistent with black holes as unitary quantum systems, with density of states given by the Bekenstein-Hawking formula. However, this comes at the cost of superselection sectors associated with the state of baby universes. Spacetimes studied by Polchinski and Strominger in 1994 provide a simple illustration of the associated concepts and techniques, and we argue them to be a natural late-time extrapolation of replica wormholes. The work aims to be self-contained and, in particular, to be accessible to readers who have not yet mastered earlier formulations of the ideas above.

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