Conformal flatness and self-duality of Thurston-geometries

The anti-self-duality equations for gauge fields in d = 4 and a generalization of these equations to dimension d = 4n are considered. For gauge fields with values in an arbitrary semisimple Lie algebra [Formula: see text] we introduce the ansatz which reduces the anti-self-duality equations in the Euclidean space ℝ4n to a system of equations breaking up into the well known Nahm's equations and some linear equations for scalar field φ.

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Invariance of projective modules in $$\mathsf {Sup}$$ under self-duality

Algebra Universalis ◽

10.1007/s00012-020-00691-5 ◽

2021 ◽

Vol 82 (1) ◽

Author(s):

Javier Gutiérrez García ◽

Ulrich Höhle ◽

Tomasz Kubiak

Keyword(s):

Projective Modules ◽

Self Duality

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Condensation of SIP Particles and Sticky Brownian Motion

Journal of Statistical Physics ◽

10.1007/s10955-021-02775-5 ◽

2021 ◽

Vol 183 (3) ◽

Author(s):

Mario Ayala ◽

Gioia Carinci ◽

Frank Redig

Keyword(s):

Brownian Motion ◽

Interacting Particle Systems ◽

Particle Systems ◽

Self Duality ◽

Inclusion Process ◽

Interacting Particle ◽

New Information ◽

Homogeneous Product ◽

Coarsening Dynamics ◽

The Difference

AbstractWe study the symmetric inclusion process (SIP) in the condensation regime. We obtain an explicit scaling for the variance of the density field in this regime, when initially started from a homogeneous product measure. This provides relevant new information on the coarsening dynamics of condensing interacting particle systems on the infinite lattice. We obtain our result by proving convergence to sticky Brownian motion for the difference of positions of two SIP particles in the sense of Mosco convergence of Dirichlet forms. Our approach implies the convergence of the probabilities of two SIP particles to be together at time t. This, combined with self-duality, allows us to obtain the explicit scaling for the variance of the fluctuation field.

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Cohomological localization of $$ \mathcal{N} $$ = 2 gauge theories with matter

Journal of High Energy Physics ◽

10.1007/jhep09(2020)133 ◽

2020 ◽

Vol 2020 (9) ◽

Author(s):

Guido Festuccia ◽

Anastasios Gorantis ◽

Antonio Pittelli ◽

Konstantina Polydorou ◽

Lorenzo Ruggeri

Keyword(s):

Vector Field ◽

Extended Supersymmetry ◽

General Framework ◽

Gauge Theories ◽

Killing Vector ◽

Killing Vector Field ◽

Explicit Result ◽

Yang Mills ◽

Self Duality ◽

Witten Theory

Abstract We construct a large class of gauge theories with extended supersymmetry on four-dimensional manifolds with a Killing vector field and isolated fixed points. We extend previous results limited to super Yang-Mills theory to general $$ \mathcal{N} $$ N = 2 gauge theories including hypermultiplets. We present a general framework encompassing equivariant Donaldson-Witten theory and Pestun’s theory on S4 as two particular cases. This is achieved by expressing fields in cohomological variables, whose features are dictated by supersymmetry and require a generalized notion of self-duality for two-forms and of chirality for spinors. Finally, we implement localization techniques to compute the exact partition function of the cohomological theories we built up and write the explicit result for manifolds with diverse topologies.

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Thurston Geometries in Three-Dimensional New Massive Gravity

Physical Review Letters ◽

10.1103/physrevlett.127.061102 ◽

2021 ◽

Vol 127 (6) ◽

Author(s):

Daniel Flores-Alfonso ◽

Cesar S. Lopez-Monsalvo ◽

Marco Maceda

Keyword(s):

Three Dimensional ◽

Massive Gravity ◽

Thurston Geometries

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Robust anomalous metallic states and vestiges of self-duality in two-dimensional granular In-InOx composites

npj Quantum Materials ◽

10.1038/s41535-021-00329-2 ◽

2021 ◽

Vol 6 (1) ◽

Author(s):

Xinyang Zhang ◽

Bar Hen ◽

Alexander Palevski ◽

Aharon Kapitulnik

Keyword(s):

Magnetic Field ◽

Metallic Phase ◽

Broadband Noise ◽

Two Dimensional ◽

Conventional Theory ◽

Logarithmic Divergence ◽

Self Duality ◽

Low Field ◽

Wide Range ◽

Low Temperature Resistance

AbstractMany experiments investigating magnetic-field tuned superconductor-insulator transition (H-SIT) often exhibit low-temperature resistance saturation, which is interpreted as an anomalous metallic phase emerging from a ‘failed superconductor’, thus challenging conventional theory. Here we study a random granular array of indium islands grown on a gateable layer of indium-oxide. By tuning the intergrain couplings, we reveal a wide range of magnetic fields where resistance saturation is observed, under conditions of careful electromagnetic filtering and within a wide range of linear response. Exposure to external broadband noise or microwave radiation is shown to strengthen the tendency of superconductivity, where at low field a global superconducting phase is restored. Increasing magnetic field unveils an ‘avoided H-SIT’ that exhibits granularity-induced logarithmic divergence of the resistance/conductance above/below that transition, pointing to possible vestiges of the original emergent duality observed in a true H-SIT. We conclude that anomalous metallic phase is intimately associated with inherent inhomogeneities, exhibiting robust behavior at attainable temperatures for strongly granular two-dimensional systems.

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Higher rank FZZ-dualities

Journal of High Energy Physics ◽

10.1007/jhep02(2021)140 ◽

2021 ◽

Vol 2021 (2) ◽

Author(s):

Thomas Creutzig ◽

Yasuaki Hikida

Keyword(s):

Field Theory ◽

Reduction Method ◽

Operator Algebras ◽

The Self ◽

Liouville Theory ◽

Conformal Field ◽

Self Duality ◽

Higher Rank ◽

Corner Vertex ◽

Liouville Field Theory

Abstract We examine strong/weak dualities in two dimensional conformal field theories by generalizing the Fateev-Zamolodchikov-Zamolodchikov (FZZ-)duality between Witten’s cigar model described by the $$ \mathfrak{sl}(2)/\mathfrak{u}(1) $$ sl 2 / u 1 coset and sine-Liouville theory. In a previous work, a proof of the FZZ-duality was provided by applying the reduction method from $$ \mathfrak{sl}(2) $$ sl 2 Wess-Zumino-Novikov-Witten model to Liouville field theory and the self-duality of Liouville field theory. In this paper, we work with the coset model of the type $$ \mathfrak{sl}\left(N+1\right)/\left(\mathfrak{sl}(N)\times \mathfrak{u}(1)\right) $$ sl N + 1 / sl N × u 1 and investigate the equivalence to a theory with an $$ \mathfrak{sl}\left(N+\left.1\right|N\right) $$ sl N + 1 N structure. We derive the duality explicitly for N = 2, 3 by applying recent works on the reduction method extended for $$ \mathfrak{sl}(N) $$ sl N and the self-duality of Toda field theory. Our results can be regarded as a conformal field theoretic derivation of the duality of the Gaiotto-Rapčák corner vertex operator algebras Y0,N,N+1[ψ] and YN,0,N+1[ψ−1].

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Approaching the self-dual point of the sinh-Gordon model

Journal of High Energy Physics ◽

10.1007/jhep01(2021)014 ◽

2021 ◽

Vol 2021 (1) ◽

Author(s):

Robert Konik ◽

Márton Lájer ◽

Giuseppe Mussardo

Keyword(s):

Small Volume ◽

Zero Mode ◽

Form Factors ◽

Lagrangian Formulation ◽

The Self ◽

Quantum Mechanical ◽

Exact Form ◽

Coupling Constant ◽

Self Duality ◽

Hyperbolic Cosine

Abstract One of the most striking but mysterious properties of the sinh-Gordon model (ShG) is the b → 1/b self-duality of its S-matrix, of which there is no trace in its Lagrangian formulation. Here b is the coupling appearing in the model’s eponymous hyperbolic cosine present in its Lagrangian, cosh(bϕ). In this paper we develop truncated spectrum methods (TSMs) for studying the sinh-Gordon model at a finite volume as we vary the coupling constant. We obtain the expected results for b ≪ 1 and intermediate values of b, but as the self-dual point b = 1 is approached, the basic application of the TSM to the ShG breaks down. We find that the TSM gives results with a strong cutoff Ec dependence, which disappears according only to a very slow power law in Ec. Standard renormalization group strategies — whether they be numerical or analytic — also fail to improve upon matters here. We thus explore three strategies to address the basic limitations of the TSM in the vicinity of b = 1. In the first, we focus on the small-volume spectrum. We attempt to understand how much of the physics of the ShG is encoded in the zero mode part of its Hamiltonian, in essence how ‘quantum mechanical’ vs ‘quantum field theoretic’ the problem is. In the second, we identify the divergencies present in perturbation theory and perform their resummation using a supra-Borel approximate. In the third approach, we use the exact form factors of the model to treat the ShG at one value of b as a perturbation of a ShG at a different coupling. In the light of this work, we argue that the strong coupling phase b > 1 of the Lagrangian formulation of model may be different from what is naïvely inferred from its S-matrix. In particular, we present an argument that the theory is massless for b > 1.

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