Your search keyword '"Griguolo, Luca"' showing total 211 results

1. Supersymmetric localization and non-conformal $\mathcal{N}=2$ SYM theories in the perturbative regime

Author

Billo', Marco, Griguolo, Luca, and Testa, Alessandro

Subjects

High Energy Physics - Theory

Abstract

We examine the relation between supersymmetric localization on $\mathbb{S}^4$ and standard QFT results for non-conformal theories in flat space. Specifically, we consider 1/2 BPS circular Wilson loops in four-dimensional SU($N$) $\mathcal{N}$= 2 SYM theories with massless hypermultiplets in an arbitrary representation $\mathcal{R}$ such that the $\beta$-function is non-vanishing. On $\mathbb{S}^4$, localization maps this observable into an interacting matrix model. Although conformal symmetry is broken at the quantum level, we show that within a specific regime of validity the matrix model predictions are consistent with perturbation theory in flat space up to order $g^6$. In particular, at this order, localization predicts two classes of corrections proportional to $\zeta(3)$ whose diagrammatic origins in field theory are remarkably different. One class of $\zeta(3)$-like corrections emerges via interference effects between evanescent terms and the ultraviolet (UV) poles associated with the bare coupling constant, while the second one stems from a Feynman integral which retains the same form in flat space and on the sphere., Comment: 7 pages. V2: reference added, minor improvements in the presentation

Published

2024

2. Localization and resummation of unstable instantons in 2d Yang-Mills

Author

Griguolo, Luca, Panerai, Rodolfo, Papalini, Jacopo, Seminara, Domenico, and Yaakov, Itamar

Subjects

High Energy Physics - Theory

Abstract

We compute the exact all-orders perturbative expansion for the partition function of 2d $\mathrm{SU}(2)$ Yang-Mills theory on closed surfaces around higher critical points. We demonstrate that the expansion can be derived from the lattice partition function for all genera using a distributional generalization of the Poisson summation formula. We then recompute the expansion directly, using a stationary phase version of supersymmetric localization. The result of localization is a novel effective action which is itself a distribution rather than a function of the supersymmetric moduli. We comment on possible applications to A-twisted models and their analogs in higher dimensions., Comment: 35 pages

Published

2024

3. Asymptotics of Weil-Petersson volumes and two-dimensional quantum gravities

Author

Griguolo, Luca, Papalini, Jacopo, Russo, Lorenzo, and Seminara, Domenico

Subjects

High Energy Physics - Theory

Abstract

We propose a refined expression for the large genus asymptotics of the Weil-Petersson volumes of the moduli space of super-Riemann surfaces with an arbitrary number of boundaries. Our formula leverages the connection between JT supergravity and its matrix model definition, utilizing some basic tools of resurgence theory. The final result holds for arbitrary boundary lengths and preserves the polynomial structure of the super-volumes. As a byproduct we also obtain a prediction for the large genus asymptotics of generalized $\Theta$-class intersection numbers. We extend our proposal to the case of the quantum volumes relevant for the Virasoro minimal string/Liouville gravity. Performing the classical limit on the quantum volumes, we recover a formula for the ordinary Weil-Petersson building blocks of JT gravity., Comment: 34 pages, 4 figures

Published

2024

4. BPS Wilson loops in mass-deformed ABJM theory: Fermi gas expansions and new defect CFT data

Author

Armanini, Elisabetta, Griguolo, Luca, and Guerrini, Luigi

Subjects

High Energy Physics - Theory

Abstract

We compute the expectation values of BPS Wilson loops in the mass-deformed ABJM theory using the Fermi gas technique. We obtain explicit results in terms of Airy functions, effectively resumming the full 1/N expansion up to exponentially small terms. In the maximal supersymmetric case, these expressions enable us to derive multi-point correlation functions for topological operators belonging to the stress tensor multiplet, in the presence of a 1/2--BPS Wilson line. From the one-point correlator, we recover the ABJM Bremsstrahlung function, confirming nicely previous results obtained through latitude Wilson loops. Likewise, higher point correlators can be used to extract iteratively new defect CFT data for higher dimensional topological operators. We present a detailed example of the dimension-two operator appearing in the OPE of two stress tensor multiplets., Comment: 45 pages, 1 figure, 2 appendices

Published

2024

5. The resurgence of the plateau in supersymmetric ${\cal N}=1$ Jackiw-Teitelboim gravity

Author

Griguolo, Luca, Papalini, Jacopo, Russo, Lorenzo, and Seminara, Domenico

Subjects

High Energy Physics - Theory

Abstract

Significant progresses have been made recently in understanding the spectral form factor of Jackiw-Teitelboim gravity, particularly at late times where non-perturbative effects are expected to play a dominant role. By focusing on a peculiar regime of large time and fixed temperature, called $\tau$-scaling limit, it was found that it is possible to analytically investigate the late-time plateau directly through the gravitational genus expansion. We extend this analysis to the supersymmetric $\mathcal{N}=1$ generalization of the bosonic theory, revealing an interesting structure. First, we notice that in the $\tau$-scaling limit the perturbative sum over genera truncates after a single term, which solely accounts for the ramp behaviour. Instead a non-perturbative completion, responsible for the plateau, is encoded into an exact formula coming from the properties of the chiral gaussian ensemble, governing the spectral properties of the supersymmetric theory. We are able to recover the non-perturbative contributions by slightly deforming the genus of the involved surfaces and using resurgence theory. We derive a closed-form analytical expression for the late-time plateau and a trans-series expansion that captures the ramp-plateau transition., Comment: 35 pages, 7 figures

Published

2023

6. Erratum to: Localization and resummation of unstable instantons in 2d Yang-Mills

Author

Griguolo, Luca, Panerai, Rodolfo, Papalini, Jacopo, Seminara, Domenico, and Yaakov, Itamar

Published

2024

7. Supersymmetric localization of (higher-spin) JT gravity: a bulk perspective

Author

Griguolo, Luca, Guerrini, Luigi, Panerai, Rodolfo, Papalini, Jacopo, and Seminara, Domenico

Subjects

High Energy Physics - Theory

Abstract

We study two-dimensional Jackiw-Teitelboim gravity on the disk topology by using a BF gauge theory in the presence of a boundary term. The system can be equivalently written in a supersymmetric way by introducing auxiliary gauginos and scalars with suitable boundary conditions on the hemisphere. We compute the exact partition function thanks to supersymmetric localization and we recover the result obtained from the Schwarzian theory by accurately identifying the physical scales. The calculation is then easily extended to the higher-spin generalization of Jackiw-Teitelboim gravity, finding perfect agreement with previous results. We argue that our procedure can also be applied to boundary-anchored Wilson line correlators., Comment: 29 pages

Published

2023

8. Localization and resummationof unstable instantons in 2d Yang-Mills

Author

Griguolo, Luca, Panerai, Rodolfo, Papalini, Jacopo, Seminara, Domenico, and Yaakov, Itamar

Published

2024

9. The resurgence of the plateau in supersymmetric N = 1 Jackiw-Teitelboim gravity

Author

Griguolo, Luca, Papalini, Jacopo, Russo, Lorenzo, and Seminara, Domenico

Published

2024

10. Constant primary operators and where to find them: The strange case of BPS defects in ABJ(M) theory

Author

Gorini, Nicola, Griguolo, Luca, Guerrini, Luigi, Penati, Silvia, Seminara, Domenico, and Soresina, Paolo

Subjects

High Energy Physics - Theory

Abstract

We investigate the one-dimensional defect SCFT defined on the $1/2$ BPS Wilson line/loop in ABJ(M) theory. We show that the supermatrix structure of the defect imposes a covariant supermatrix representation of the supercharges. Exploiting this covariant formulation, we prove the existence of a long multiplet whose highest weight state is a constant supermatrix operator. At weak coupling, we study this operator in perturbation theory and confirm that it acquires a non-trivial anomalous dimension. At strong coupling, we conjecture that this operator is dual to the lowest bound state of fluctuations of the fundamental open string in AdS$_4\times \mathbb{CP}_3$ around the classical $1/2$ BPS solution. Quite unexpectedly, this operator also arises in the cohomological equivalence between bosonic and fermionic Wilson loops. We also discuss some regularization subtleties arising in perturbative calculations on the infinite Wilson line., Comment: 36 pages plus appendices, 5 figures, 5 tables

Published

2022

11. The phase diagram of $T\bar{T}$-deformed Yang-Mills theory on the sphere

Author

Griguolo, Luca, Panerai, Rodolfo, Papalini, Jacopo, and Seminara, Domenico

Subjects

High Energy Physics - Theory

Abstract

We study the large-$N$ dynamics of $T\bar{T}$-deformed two-dimensional Yang-Mills theory at genus zero. The 1/$N$-expansion of the free energy is obtained by exploiting the associated flow equation and the complete phase diagram of the theory is derived for both signs of the rescaled deformation parameter $\tau$. We observe a third-order phase transition driven by instanton condensation, which is the deformed version of the familiar Douglas-Kazakov transition separating the weakly-coupled from the strongly-coupled phase. By studying said phases, we compute the deformation of both the perturbative sector and the Gross-Taylor string expansion. Nonperturbative corrections in $\tau$ drive the system into an unexplored disordered phase separated by a novel critical line meeting tangentially the Douglas-Kazakov one at a tricritical point. The associated phase transition is induced by the collision of large-$N$ saddle points, determining its second-order character., Comment: 25 pages, 3 figures

Published

2022

12. Exact $T\bar{T}$-deformation of two-dimensional Yang-Mills theory on the sphere

Author

Griguolo, Luca, Panerai, Rodolfo, Papalini, Jacopo, and Seminara, Domenico

Subjects

High Energy Physics - Theory

Abstract

We study the $T\bar{T}$ deformation of two-dimensional Yang-Mills theory at genus zero by carrying out the analysis at the level of its instanton representation. We first focus on the perturbative sector by considering its power expansion in the deformation parameter $\mu$. By studying the resulting asymptotic series through resurgence theory, we determine the nonperturbative contributions that enter the result for $\mu<0$. We then extend this analysis to any flux sector by solving the relevant flow equation. Specifically, we impose boundary conditions corresponding to two distinct regimes: the quantum undeformed theory and the semiclassical limit of the deformed theory. The full partition function is obtained as a sum over all magnetic fluxes. For any $\mu>0$, only a finite portion of the quantum spectrum survives and the partition function reduces to a sum over a finite set of representations. For $\mu<0$, nonperturbative contributions regularize the partition function through an intriguing mechanism that generates nontrivial subtractions., Comment: 36 pages, 4 figures

Published

2022

13. Exact $T\overline{T}$ deformation of two-dimensional Maxwell theory

Author

Griguolo, Luca, Panerai, Rodolfo, Papalini, Jacopo, and Seminara, Domenico

Subjects

High Energy Physics - Theory

Abstract

$T\overline{T}$-deformed two-dimensional quantum Maxwell theory on the torus is examined, taking into account nonperturbative effects in the deformation parameter $\mu$. We study the deformed partition function solving the relevant flow equation at the level of individual flux sectors. Summing exactly the "instanton" series, we obtain a well-defined expression for the partition function at arbitrary $\mu$. For $\mu>0$, the quantum spectrum of the theory experiences a truncation, the partition function reducing to a sum over a finite set of positive-energy states. For $\mu<0$ instead, the appearance of nonperturbative contributions in $\mu$ drastically modifies the structure of the partition function, regularizing its naive divergences through instanton-like subtractions. For each flux sector, we show that the semiclassical contribution is dominated by the deformed classical action. The theory is observed to undergo infinite-order phase transitions for certain values of $\mu$, associated with the vanishing of Polyakov-loop correlators., Comment: 6 pages, 2 figures

Published

2022

14. Nonperturbative effects and resurgence in JT gravity at finite cutoff

Author

Griguolo, Luca, Panerai, Rodolfo, Papalini, Jacopo, and Seminara, Domenico

Subjects

High Energy Physics - Theory

Abstract

We investigate the nonperturbative structure of Jackiw-Teitelboim gravity at finite cutoff, as given by its proposed formulation in terms of a $T\bar{T}$-deformed Schwarzian quantum mechanics. Our starting point is a careful computation of the disk partition function to all orders in the perturbative expansion in the cutoff parameter. We show that the perturbative series is asymptotic and that it admits a precise completion exploiting the analytical properties of its Borel transform, as prescribed by resurgence theory. The final result is then naturally interpreted in terms of the nonperturbative branch of the $T\bar{T}$-deformed spectrum. The finite-cutoff trumpet partition function is computed by applying the same strategy. In the second part of the paper, we propose an extension of this formalism to arbitrary topologies, using the basic gluing rules of the undeformed case. The Weil-Petersson integrations can be safely performed due to the nonperturbative corrections and give results that are compatible with the flow equation associated with the $T\bar{T}$ deformation. We derive exact expressions for general topologies and show that these are captured by a suitable deformation of the Eynard-Orantin topological recursion. Finally, we study the "slope" and "ramp" regimes of the spectral form factor as functions of the cutoff parameter., Comment: 34 pages

Published

2021

15. Localization and Duality for ABJM Latitude Wilson Loops

Author

Griguolo, Luca, Guerrini, Luigi, and Yaakov, Itamar

Subjects

High Energy Physics - Theory

Abstract

We investigate several aspects of BPS latitude Wilson loops in gauge theories in three dimensions with $\mathcal{N}\ge 4$ supersymmetry. We derive a matrix model for the bosonic latitude Wilson loop in ABJM using supersymmetric localization, and show how to extend the computation to more general Chern-Simons-matter theories. We then define latitude type Wilson and vortex loop operators in theories without Chern-Simons terms, and explore a connection to the recently derived superalgebra defining local Higgs and Coulomb branch operators in these theories. Finally, we identify a BPS loop operator dual to the bosonic latitude Wilson loop which is a novel bound state of Wilson and vortex loops, defined using a worldvolume supersymmetric quantum mechanics., Comment: 51 pages; typos corrected, references added, comments added

Published

2021

16. On the perturbative expansion of exact bi-local correlators in JT gravity

Author

Griguolo, Luca, Papalini, Jacopo, and Seminara, Domenico

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology, Mathematical Physics

Abstract

We study the perturbative series associated to bi-local correlators in Jackiw-Teitelboim (JT) gravity, for positive weight $\lambda$ of the matter CFT operators. Starting from the known exact expression, derived by CFT and gauge theoretical methods, we reproduce the Schwarzian semiclassical expansion beyond leading order. The computation is done for arbitrary temperature and finite boundary distances, in the case of disk and trumpet topologies. A formula presenting the perturbative result (for $\lambda \in \mathbb{N}/2$) at any given order in terms of generalized Apostol-Bernoulli polynomials is also obtained. The limit of zero temperature is then considered, obtaining a compact expression that allows to discuss the asymptotic behaviour of the perturbative series. Finally we highlight the possibility to express the exact result as particular combinations of Mordell integrals., Comment: 30 pages, 3 figures

Published

2021

17. The topological line of ABJ(M) theory

Author

Gorini, Nicola, Griguolo, Luca, Guerrini, Luigi, Penati, Silvia, Seminara, Domenico, and Soresina, Paolo

Subjects

High Energy Physics - Theory

Abstract

We construct the one-dimensional topological sector of $\mathcal N = 6$ ABJ(M) theory and study its relation with the mass-deformed partition function on $S^3$. Supersymmetric localization provides an exact representation of this partition function as a matrix integral, which interpolates between weak and strong coupling regimes. It has been proposed that correlation functions of dimension-one topological operators should be computed through suitable derivatives with respect to the masses, but a precise proof is still lacking. We present non-trivial evidence for this relation by computing the two-point function at twoloop, successfully matching the matrix model expansion at weak coupling and finite ranks. As a by-product we obtain the two-loop explicit expression for the central charge $c_T$ of ABJ(M) theory. Three- and four-point functions up to one-loop confirm the relation as well. Our result points towards the possibility to localize the one-dimensional topological sector of ABJ(M) and may also be useful in the bootstrap program for 3d SCFTs., Comment: 38 pages, 2 figures, 3 tables

Published

2020

18. Analytic bootstrap and Witten diagrams for the ABJM Wilson line as defect CFT$_1$

Author

Bianchi, Lorenzo, Bliard, Gabriel, Forini, Valentina, Griguolo, Luca, and Seminara, Domenico

Subjects

High Energy Physics - Theory

Abstract

We study local operator insertions on 1/2-BPS line defects in ABJM theory. Specifically, we consider a class of four-point correlators in the CFT$_1$ with SU$(1, 1|3)$ superconformal symmetry defined on the 1/2-BPS Wilson line. The relevant insertions belong to the short supermultiplet containing the displacement operator and correspond to fluctuations of the dual fundamental string in AdS$_4 \times \mathbb{C}\textrm{P}^3$ ending on the line at the boundary. We use superspace techniques to represent the displacement supermultiplet and we show that superconformal symmetry determines the four-point correlators of its components in terms of a single function of the one-dimensional cross-ratio. Such function is highly constrained by crossing and internal consistency, allowing us to use an analytical bootstrap approach to find the first subleading correction at strong coupling. Finally, we use AdS/CFT to compute the same four-point functions through tree-level AdS$_2$ Witten diagrams, producing a result that is perfectly consistent with the bootstrap solution., Comment: 50 pages, 2 figures. v2: one footnote and one reference added, it matches the published version v3: further references added

Published

2020

19. Roadmap on Wilson loops in 3d Chern-Simons-matter theories

Author

Drukker, Nadav, Trancanelli, Diego, Bianchi, Lorenzo, Bianchi, Marco S., Correa, Diego H., Forini, Valentina, Griguolo, Luca, Leoni, Matias, Levkovich-Maslyuk, Fedor, Nagaoka, Gabriel, Penati, Silvia, Preti, Michelangelo, Probst, Malte, Putrov, Pavel, Seminara, Domenico, Silva, Guillermo A., Tenser, Marcia, Trepanier, Maxime, Vescovi, Edoardo, Yaakov, Itamar, and Zhang, Jiaju

Subjects

High Energy Physics - Theory

Abstract

This is a compact review of recent results on supersymmetric Wilson loops in ABJ(M) and related theories. It aims to be a quick introduction to the state of the art in the field and a discussion of open problems. It is divided into short chapters devoted to different questions and techniques. Some new results, perspectives and speculations are also presented. We hope this might serve as a baseline for further studies of this topic., Comment: 41 pages, 4 figures, prepared for submission to J. Phys. A; v2: minor changes, published version

Published

2019

20. Constant primary operators and where to find them: the strange case of BPS defects in ABJ(M) theory

Author

Gorini, Nicola, Griguolo, Luca, Guerrini, Luigi, Penati, Silvia, Seminara, Domenico, and Soresina, Paolo

Published

2023

21. A matrix model for the latitude Wilson loop in ABJM theory

Author

Bianchi, Marco S., Griguolo, Luca, Mauri, Andrea, Penati, Silvia, and Seminara, Domenico

Subjects

High Energy Physics - Theory

Abstract

In ABJ(M) theory, we propose a matrix model for the exact evaluation of BPS Wilson loops on a latitude circular contour, so providing a new weak-strong interpolation tool. Intriguingly, the matrix model turns out to be a particular case of that computing torus knot invariants in $U(N_1|N_2)$ Chern-Simons theory. At weak coupling we check our proposal against a three-loop computation, performed for generic framing, winding number and representation. The matrix model is amenable of a Fermi gas formulation, which we use to systematically compute the strong coupling and genus expansions. For the fermionic Wilson loop the leading planar behavior agrees with a previous string theory prediction. For the bosonic operator our result provides a clue for finding the corresponding string dual configuration. Our matrix model is consistent with recent proposals for computing Bremsstrahlung functions exactly in terms of latitude Wilson loops. As a by-product, we extend the conjecture for the exact $B^{\theta}_{1/6}$ Bremsstrahlung function to generic representations and test it with a four-loop perturbative computation. Finally, we propose an exact prediction for $B_{1/2}$ at unequal gauge group ranks., Comment: 73 pages; v2: several improvements, JHEP published version

Published

2018

22. Wilson lines as superconformal defects in ABJM theory: a formula for the emitted radiation

Author

Bianchi, Lorenzo, Griguolo, Luca, Preti, Michelangelo, and Seminara, Domenico

Subjects

High Energy Physics - Theory

Abstract

We study operator insertions into 1/2 BPS Wilson loops in N = 6 ABJM theory and investigate their two-point correlators. In this framework, the energy emitted by a heavy moving probe can be exactly obtained from some two-point coefficients of bosonic and fermionic insertions. This allows us to confirm an early proposal for computing the Bremsstrahlung function in terms of certain supersymmetric circular Wilson loops, whose value might be accessible to localization techniques. In the derivation of this result we also elucidate the structure of protected multiplets in the relevant superconformal defect theory and perform an explicit two-loop calculation., Comment: 37 pages, 4 figures, references added

Published

2017

23. Towards the exact Bremsstrahlung function of ABJM theory

Author

Bianchi, Marco S., Griguolo, Luca, Mauri, Andrea, Penati, Silvia, Preti, Michelangelo, and Seminara, Domenico

Subjects

High Energy Physics - Theory

Abstract

We present the three-loop calculation of the Bremsstrahlung function associated to the 1/2-BPS cusp in ABJM theory, including color subleading corrections. Using the BPS condition we reduce the computation to that of a cusp with vanishing angle. We work within the framework of heavy quark effective theory (HQET) that further simplifies the analytic evaluation of the relevant cusp anomalous dimension in the near-BPS limit. The result passes nontrivial tests, such as exponentiation, and is in agreement with the conjecture made in [1] for the exact expression of the Bremsstrahlung function, based on the relation with fermionic latitude Wilson loops., Comment: 46 pages, 15 figures

Published

2017

24. The quantum 1/2 BPS Wilson loop in ${\cal N}=4$ Chern-Simons-matter theories

Author

Bianchi, Marco S., Griguolo, Luca, Leoni, Matias, Mauri, Andrea, Penati, Silvia, and Seminara, Domenico

Subjects

High Energy Physics - Theory

Abstract

In three dimensional ${\cal N}=4$ Chern-Simons-matter theories two independent fermionic Wilson loop operators can be defined, which preserve half of the supersymmetry charges and are cohomologically equivalent at classical level. We compute their three-loop expectation value in a convenient color sector and prove that the degeneracy is uplifted by quantum corrections. We expand the matrix model prediction in the same regime and by comparison we conclude that the quantum 1/2 BPS Wilson loop is the average of the two operators. We provide an all-loop argument to support this claim at any order. As a by-product, we identify the localization result at three loops as a correction to the framing factor induced by matter interactions. Finally, we comment on the quantum properties of the non-1/2 BPS Wilson loop operator defined as the difference of the two fermionic ones., Comment: 22 pages + appendixes, 4 figures, 1 Table

Published

2016

25. Framing and localization in Chern-Simons theories with matter

Author

Bianchi, Marco S., Griguolo, Luca, Leoni, Matias, Mauri, Andrea, Penati, Silvia, and Seminara, Domenico

Subjects

High Energy Physics - Theory

Abstract

Supersymmetric localization provides exact results that should match QFT computations in some regularization scheme. The agreement is particularly subtle in three dimensions where complex answers from localization procedure sometimes arise. We investigate this problem by studying the expectation value of the 1/6 BPS Wilson loop in planar ABJ(M) theory at three loops in perturbation theory. We reproduce the corresponding term in the localization result and argue that it originates entirely from a non-trivial framing of the circular contour. Contrary to pure Chern-Simons theory, we point out that for ABJ(M) the framing phase is a non-trivial function of the couplings and that it potentially receives contributions from vertex-like diagrams. Finally, we briefly discuss the intimate link between the exact framing factor and the Bremsstrahlung function of the 1/2-BPS cusp., Comment: 24 pages, 7 figures; v2: published version

Published

2016

26. Surprises from the resummation of ladders in the ABJ(M) cusp anomalous dimension

Author

Bonini, Marisa, Griguolo, Luca, Preti, Michelangelo, and Seminara, Domenico

Subjects

High Energy Physics - Theory

Abstract

We study the cusp anomalous dimension in N=6 ABJ(M) theory, identifying a scaling limit in which the ladder diagrams dominate. The resummation is encoded into a Bethe-Salpeter equation that is mapped to a Schroedinger problem, exactly solvable due to the surprising supersymmetry of the effective Hamiltonian. In the ABJ case the solution implies the diagonalization of the U(N) and U(M) building blocks, suggesting the existence of two independent cusp anomalous dimensions and an unexpected exponentiation structure for the related Wilson loops. While consistent with previous perturbative analysis, the strong coupling limit of our result does not agree with the string theory computation, emphasizing a difference with the analogous resummation in the N=4 case., Comment: 26 pages, 4 figures, references added, published version

Published

2016

27. Bremsstrahlung function, leading Luscher correction at weak coupling and localization

Author

Bonini, Marisa, Griguolo, Luca, Preti, Michelangelo, and Seminara, Domenico

Subjects

High Energy Physics - Theory

Abstract

We discuss the near BPS expansion of the generalized cusp anomalous dimension with L units of R-charge. Integrability provides an exact solution, obtained by solving a general TBA equation in the appropriate limit: we propose here an alternative method based on supersymmetric localization. The basic idea is to relate the computation to the vacuum expectation value of certain 1/8 BPS Wilson loops with local operator insertions along the contour. These observables localize on a two-dimensional gauge theory on S^2, opening the possibility of exact calculations. As a test of our proposal, we reproduce the leading Luscher correction at weak coupling to the generalized cusp anomalous dimension. This result is also checked against a genuine Feynman diagram approach in N=4 Super Yang-Mills theory., Comment: 25 pages, 6 figures. References added and typos corrected

Published

2015

28. Probing Wilson loops in ${\cal N}=4$ Chern-Simons-matter theories at weak coupling

Author

Griguolo, Luca, Leoni, Matias, Mauri, Andrea, Penati, Silvia, and Seminara, Domenico

Subjects

High Energy Physics - Theory

Abstract

For three-dimensional ${\cal N}=4$ super Chern-Simons-matter theories associated to necklace quivers $U(N_0) \times U(N_1) \times \cdots U(N_{2r-1}) $, we study at quantum level the two kinds of 1/2 BPS Wilson loop operators recently introduced in arXiv:1506.07614. We perform a two-loop evaluation and find the same result for the two kinds of operators, so moving to higher loops a possible quantum uplift of the classical degeneracy. We also compute the 1/4 BPS bosonic Wilson loop and discuss the quantum version of the cohomological equivalence between fermionic and bosonic Wilson loops. We compare the perturbative result with the Matrix Model prediction and find perfect matching, after identification and remotion of a suitable framing factor. Finally, we discuss the potential appearance of three-loop contributions that might break the classical degeneracy and briefly analyse possible implications on the BPS nature of these operators., Comment: 7 pages, 2 figures

Published

2015

29. Supersymmetric localization of (higher-spin) JT gravity: a bulk perspective

Author

Griguolo, Luca, primary, Guerrini, Luigi, additional, Panerai, Rodolfo, additional, Papalini, Jacopo, additional, and Seminara, Domenico, additional

Published

2023

30. Correlators of chiral primaries and 1/8 BPS Wilson loops from perturbation theory

Author

Bonini, Marisa, Griguolo, Luca, and Preti, Michelangelo

Subjects

High Energy Physics - Theory

Abstract

We study at perturbative level the correlation functions of a general class of 1/8 BPS Wilson loops and chiral primaries in N = 4 Super Yang-Mills theory. The contours and the location of operator insertions share a sphere S^2 embedded into spacetime and the system preserves at least two supercharges. We perform explicit two-loop computations, for some particular but still rather general configuration, that confirm the elegant results expected from localization procedure. We find notably full consistency with the multi-matrix model averages, obtained from 2D Yang-Mills theory on the sphere, when interacting diagrams do not cancel and contribute non-trivially to the final answer., Comment: 30 pages, 13 figures

Published

2014

31. BPS Wilson loops and Bremsstrahlung function in ABJ(M): a two loop analysis

Author

Bianchi, Marco S., Griguolo, Luca, Leoni, Matias, Penati, Silvia, and Seminara, Domenico

Subjects

High Energy Physics - Theory

Abstract

We study a family of circular BPS Wilson loops in N=6 super Chern-Simons-matter theories, generalizing the usual 1/2-BPS circle. The scalar and fermionic couplings depend on two deformation parameters and these operators can be considered as the ABJ(M) counterpart of the DGRT latitudes defined in N=4 SYM. We perform a complete two-loop analysis of their vacuum expectation value, discuss the framing dependence and propose a general relation with cohomologically equivalent bosonic operators. We make an all-loop proposal for computing the Bremsstrahlung function associated to the 1/2-BPS cusp in terms of these generalized Wilson loops. When applied to our two-loop result it reproduces the known expression. Finally, we comment on the generalization of this proposal to the bosonic 1/6-BPS case., Comment: 46 pages, 6 figures; references added

Published

2014

32. A novel cross-check of localization and non conformal holography

Author

Bigazzi, Francesco, Cotrone, Aldo L., Griguolo, Luca, and Seminara, Domenico

Subjects

High Energy Physics - Theory

Abstract

We precisely reproduce the perimeter law obeyed by Wilson loops on large spatial contours in planar N=2 SYM at strong coupling, as recently deduced using localization, by means of a dual holographic model. The relevant supergravity background is sourced by D5-branes wrapped on a two-sphere in a Calabi-Yau two-manifold. Thus, localization and holography are cross-checked, for the first time, in a non conformal context where the gravity background is not asymptotically Anti de Sitter and the dual gauge theory has a logarithmically running coupling. We also notice that the same cross-check can be performed considering an alternative holographic description of N=2 SYM based on a background sourced by fractional D3-branes., Comment: 9 pages, latex; v2:13 pages. A Section on the fractional brane setup has been added. Clarifications and references added; v3: published version, references added

Published

2013

33. Perturbative evaluation of circular 1/2 BPS Wilson loops in N = 6 Super Chern-Simons theories

Author

Griguolo, Luca, Martelloni, Gabriele, Poggi, Matteo, and Seminara, Domenico

Subjects

High Energy Physics - Theory

Abstract

We present a complete two-loop analysis of the quantum expectation value for circular BPS Wilson loops in ABJ(M) theories. We examine in details the 1/2 BPS case, that requires non-trivial fermionic couplings with the contour, finding perfect agreement with the exact matrix model answer at zero framing. The result is obtained through a careful application of DRED regularization scheme, combined with a judicious rearrangement of the relevant perturbative contributions that reduces the computation to simple integrals. We carefully analyze the contribution of fermions that is crucial for the consistency with the localization procedure and point out the arising of pivotal evanescent terms, discussing their meaning in relation to Ward identities., Comment: 32 pages, 5 figures, Referemces added

Published

2013

34. The generalized cusp in ABJ(M) N = 6 Super Chern-Simons theories

Author

Griguolo, Luca, Marmiroli, Daniele, Martelloni, Gabriele, and Seminara, Domenico

Subjects

High Energy Physics - Theory

Abstract

We construct a generalized cusped Wilson loop operator in N = 6 super Chern-Simons-matter theories which is locally invariant under half of the supercharges. It depends on two parameters and interpolates smoothly between the 1/2 BPS line or circle and a pair of antiparallel lines, representing a natural generalization of the quark-antiquark potential in ABJ(M) theories. For particular choices of the parameters we obtain 1/6 BPS configurations that, mapped on S^2 by a conformal transformation, realize a three-dimensional analogue of the wedge DGRT Wilson loop of N = 4. The cusp couples, in addition to the gauge and scalar fields of the theory, also to the fermions in the bifundamental representation of the U(N)xU(M) gauge group and its expectation value is expressed as the holonomy of a suitable superconnection. We discuss the definition of these observables in terms of traces and the role of the boundary conditions of fermions along the loop. We perform a complete two-loop analysis, obtaining an explicit result for the generalized cusp at the second non-trivial order, from which we read off the interaction potential between heavy 1/2 BPS particles in the ABJ(M) model. Our results open the possibility to explore in the three-dimensional case the connection between localization properties and integrability, recently advocated in D = 4., Comment: 53 pages, 10 figures, added references, this is the version appeared on JHEP

Published

2012

35. Correlators of Hopf Wilson loops in the AdS/CFT correspondence

Author

Griguolo, Luca, Mori, Stefano, Nieri, Fabrizio, and Seminara, Domenico

Subjects

High Energy Physics - Theory

Abstract

We study at quantum level correlators of supersymmetric Wilson loops with contours lying on Hopf fibers of $S^3$. In $\mathcal{N}=4$ SYM theory the strong coupling analysis can be performed using the AdS/CFT correspondence and a connected classical string surface, linking two different fibers, is presented. More precisely, the string solution describes oppositely oriented fibers with the same scalar coupling and depends on an angular parameter, interpolating between a non-BPS configuration and a BPS one. The system can be thought as an alternative deformation of the ordinary antiparallel lines giving the static quark-antiquark potential, that is indeed correctly reproduced, at weak and strong coupling, as the fibers approach one another., Comment: 38 pages, 5 figures

Published

2012

36. Impure Aspects of Supersymmetric Wilson Loops

Author

Cardinali, Valentina, Griguolo, Luca, and Seminara, Domenico

Subjects

High Energy Physics - Theory

Abstract

We study a general class of supersymmetric Wilson loops operator in N = 4 super Yang-Mills theory, obtained as orbits of conformal transformations. These loops are the natural generalization of the familiar circular Wilson-Maldacena operator and their supersymmetric properties are encoded into a Killing spinor that is not pure. We present a systematic analysis of their scalar couplings and of the preserved supercharges, modulo the action of the global symmetry group, both in the compact and in the non-compact case. The quantum behavior of their expectation value is also addressed, in the simplest case of the Lissajous contours: explicit computations at weak-coupling, through Feynman diagrams expansion, and at strong-coupling, by means of AdS/CFT correspondence, suggest the possibility of an exact evaluation., Comment: 40 pages, 4 figures

Published

2012

37. Correlators of supersymmetric Wilson loops at weak and strong coupling

Author

Bassetto, Antonio, Griguolo, Luca, Pucci, Fabrizio, Seminara, Domenico, Thambyahpillai, Shiyamala, and Young, Donovan

Subjects

High Energy Physics - Theory

Abstract

We continue our study of the correlators of a recently discovered family of BPS Wilson loops in N=4 supersymmetric U(N) Yang-Mills theory. We perform explicit computations at weak coupling by means of analytical and numerical methods finding agreement with the exact formula derived from localization. In particular we check the localization prediction at order g^6 for different BPS "latitude" configurations, the N=4 perturbative expansion reproducing the expected results within a relative error of 10^(-4). On the strong coupling side we present a supergravity evaluation of the 1/8 BPS correlator in the limit of large separation, taking into account the exchange of all relevant modes between the string world-sheets. While reproducing the correct geometrical dependence, we find that the associated coefficient does not match the localization result., Comment: 34 pages, 16 figures

Published

2009

38. The topological line of ABJ(M) theory

Author

Gorini, Nicola, Griguolo, Luca, Guerrini, Luigi, Penati, Silvia, Seminara, Domenico, and Soresina, Paolo

Published

2021

39. Chern-Simons theory on L(p,q) lens spaces and Gopakumar-Vafa duality

Author

Brini, Andrea, Griguolo, Luca, Seminara, Domenico, and Tanzini, Alessandro

Subjects

Mathematical Physics, High Energy Physics - Theory, Mathematics - Algebraic Geometry, Mathematics - Geometric Topology, 81T45 (Primary), 81T30, 57M27, 17B37, 14N35

Abstract

We consider aspects of Chern-Simons theory on L(p,q) lens spaces and its relation with matrix models and topological string theory on Calabi-Yau threefolds, searching for possible new large N dualities via geometric transition for non-SU(2) cyclic quotients of the conifold. To this aim we find, on one hand, some novel matrix integral representations of the SU(N) CS partition function in a generic flat background for the whole L(p,q) family and provide a solution for its large N dynamics; on the other, we perform in full detail the construction of a family of would-be dual closed string backgrounds via conifold geometric transition from T^*L(p,q). We can then explicitly prove that Gopakumar-Vafa duality in a fixed vacuum fails in the case q>1, and briefly discuss how it could be restored in a non-perturbative setting., Comment: 17 pages, 6 figures; references added

Published

2008

40. Supersymmetric Wilson loops at two loops

Author

Bassetto, Antonio, Griguolo, Luca, Pucci, Fabrizio, and Seminara, Domenico

Subjects

High Energy Physics - Theory

Abstract

We study the quantum properties of certain BPS Wilson loops in ${\cal N}=4$ supersymmetric Yang-Mills theory. They belong to a general family, introduced recently, in which the addition of particular scalar couplings endows generic loops on $S^3$ with a fraction of supersymmetry. When restricted to $S^2$, their quantum average has been further conjectured to be exactly computed by the matrix model governing the zero-instanton sector of YM$_2$ on the sphere. We perform a complete two-loop analysis on a class of cusped Wilson loops lying on a two-dimensional sphere, finding perfect agreement with the conjecture. The perturbative computation reproduces the matrix-model expectation through a highly non-trivial interplay between ladder diagrams and self-energies/vertex contributions, suggesting the existence of a localization procedure., Comment: 35 pages, 14 figures, typos corrected, references added

Published

2008

41. Thermodynamics of theories with sixteen supercharges in non-trivial vacua

Author

Grignani, Gianluca, Griguolo, Luca, Mori, Nicola, and Seminara, Domenico

Subjects

High Energy Physics - Theory

Abstract

We study the thermodynamics of maximally supersymmetric U(N) Yang-Mills theory on $\mathds{R}\times S^2$ at large $N$. The model arises as a consistent truncation of ${\cal N}=4$ super Yang-Mills on $\mathds{R}\times S^3$ and as the continuum limit of the plane-wave matrix model expanded around the $N$ spherical membrane vacuum. The theory has an infinite number of classical BPS vacua, labeled by a set of monopole numbers, described by dual supergravity solutions. We first derive the Lagrangian and its supersymmetry transformations as a deformation of the usual dimensional reduction of ${\cal N}=1$ gauge theory in ten dimensions. Then we compute the partition function in the zero 't Hooft coupling limit in different monopole backgrounds and with chemical potentials for the $R$-charges. In the trivial vacuum we observe a first-order Hagedorn transition separating a phase in which the Polyakov loop has vanishing expectation value from a regime in which this order parameter is non-zero, in analogy with the four-dimensional case. The picture changes in the monopole vacua due to the structure of the fermionic effective action. Depending on the regularization procedure used in the path integral, we obtain two completely different behaviors, triggered by the absence or the appearance of a Chern-Simons term. In the first case we still observe a first-order phase transition, with Hagedorn temperature depending on the monopole charges. In the latter the large $N$ behavior is obtained by solving a unitary multi-matrix model with a peculiar logarithmic potential, the system does not present a phase transition and it always appears in a ``deconfined'' phase., Comment: 66 pages, 7 figure eps, References added and minor changes

Published

2007

42. Black Holes, Instanton Counting on Toric Singularities and q-Deformed Two-Dimensional Yang-Mills Theory

Author

Griguolo, Luca, Seminara, Domenico, Szabo, Richard J., and Tanzini, Alessandro

Subjects

High Energy Physics - Theory

Abstract

We study the relationship between instanton counting in N=4 Yang-Mills theory on a generic four-dimensional toric orbifold and the semi-classical expansion of q-deformed Yang-Mills theory on the blowups of the minimal resolution of the orbifold singularity, with an eye to clarifying the recent proposal of using two-dimensional gauge theories to count microstates of black holes in four dimensions. We describe explicitly the instanton contributions to the counting of D-brane bound states which are captured by the two-dimensional gauge theory. We derive an intimate relationship between the two-dimensional Yang-Mills theory and Chern-Simons theory on generic Lens spaces, and use it to show that the correct instanton counting is only reproduced when the Chern-Simons contributions are treated as non-dynamical boundary conditions in the D4-brane gauge theory. We also use this correspondence to discuss the counting of instantons on higher genus ruled Riemann surfaces., Comment: 27 pages

Published

2006

43. Phase transitions, double-scaling limit, and topological strings

Author

Caporaso, Nicola, Griguolo, Luca, Marino, Marcos, Pasquetti, Sara, and Seminara, Domenico

Subjects

High Energy Physics - Theory, Mathematics - Algebraic Geometry

Abstract

Topological strings on Calabi--Yau manifolds are known to undergo phase transitions at small distances. We study this issue in the case of perturbative topological strings on local Calabi--Yau threefolds given by a bundle over a two-sphere. This theory can be regarded as a q--deformation of Hurwitz theory, and it has a conjectural nonperturbative description in terms of q--deformed 2d Yang--Mills theory. We solve the planar model and find a phase transition at small radius in the universality class of 2d gravity. We give strong evidence that there is a double--scaled theory at the critical point whose all genus free energy is governed by the Painlev\'e I equation. We compare the critical behavior of the perturbative theory to the critical behavior of its nonperturbative description, which belongs to the universality class of 2d supergravity. We also give evidence for a new open/closed duality relating these Calabi--Yau backgrounds to open strings with framing., Comment: 49 pages, 3 eps figures; section added on non-perturbative proposal and 2d gravity; minor typos corrected

Published

2006

44. Topological strings and large N phase transitions II: Chiral expansion of q-deformed Yang-Mills theory

Author

Caporaso, Nicola, Cirafici, Michele, Griguolo, Luca, Pasquetti, Sara, Seminara, Domenico, and Szabo, Richard J.

Subjects

High Energy Physics - Theory

Abstract

We continue our study of the large N phase transition in q-deformed Yang-Mills theory on the sphere and its role in connecting topological strings to black hole entropy. We study in detail the chiral theory defined in terms of uncoupled single U(N) representations at large N and write down the resulting partition function by means of the topological vertex. The emergent toric geometry has three Kaehler parameters, one of which corresponds to the expected fibration over the sphere. By taking a suitable double-scaling limit we recover the chiral Gross-Taylor string expansion. To analyse the phase transition we construct a matrix model which describes the chiral gauge theory. It has three distinct phases, one of which should be described by the closed topological string expansion. We verify this expectation by explicit comparison between the matrix model and the chiral topological string free energies. We also show that the critical point in the pertinent phase of the matrix model corresponds to a divergence of the topological string perturbation series., Comment: 49 pages, 9 figures

Published

2005

45. Topological strings and large N phase transitions I: Nonchiral expansion of q-deformed Yang-Mills theory

Author

Caporaso, Nicola, Cirafici, Michele, Griguolo, Luca, Pasquetti, Sara, Seminara, Domenico, and Szabo, Richard J.

Subjects

High Energy Physics - Theory

Abstract

We examine the problem of counting bound states of BPS black holes on local Calabi-Yau threefolds which are fibrations over a Riemann surface by computing the partition function of q-deformed Yang-Mills theory on the Riemann surface. We study in detail the genus zero case and obtain, at finite $N$, the instanton expansion of the gauge theory. It can be written exactly as the partition function for U(N) Chern-Simons gauge theory on a Lens space, summed over all non-trivial vacua, plus a tower of non-perturbative instanton contributions. The correspondence between two and three dimensional gauge theories is elucidated by an explicit mapping between two-dimensional Yang-Mills instantons and flat connections on the Lens space. In the large $N$ limit we find a peculiar phase structure in the model. At weak string coupling the theory reduces exactly to the trivial flat connection sector with instanton contributions exponentially suppressed, and the topological string partition function on the resolved conifold is reproduced in this regime. At a certain critical point all non-trivial vacua contribute, instantons are enhanced and the theory appears to undergo a phase transition into a strong coupling regime. We rederive these results by performing a saddle-point approximation to the exact partition function. We obtain a q-deformed version of the Douglas-Kazakov equation for two-dimensional Yang-Mills theory on the sphere, whose one-cut solution below the transition point reproduces the resolved conifold geometry. Above the critical point we propose a two-cut solution that should reproduce the chiral-antichiral dynamics found for black holes on the Calabi-Yau threefold and the Gross-Taylor string in the undeformed limit., Comment: 68 pages, 4 figures, References added and typos corrected

Published

2005

46. Morita Duality and Noncommutative Wilson Loops in Two Dimensions

Author

Cirafici, Michele, Griguolo, Luca, Seminara, Domenico, and Szabo, Richard J.

Subjects

High Energy Physics - Theory

Abstract

We describe a combinatorial approach to the analysis of the shape and orientation dependence of Wilson loop observables on two-dimensional noncommutative tori. Morita equivalence is used to map the computation of loop correlators onto the combinatorics of non-planar graphs. Several nonperturbative examples of symmetry breaking under area-preserving diffeomorphisms are thereby presented. Analytic expressions for correlators of Wilson loops with infinite winding number are also derived and shown to agree with results from ordinary Yang-Mills theory., Comment: 32 pages, 9 figures; v2: clarifying comments added; Final version to be published in JHEP

Published

2005

47. Instantons, Fluxons and Open Gauge String Theory

Author

Griguolo, Luca, Seminara, Domenico, and Szabo, Richard J.

Subjects

High Energy Physics - Theory

Abstract

We use the exact instanton expansion to illustrate various string characteristics of noncommutative gauge theory in two dimensions. We analyse the spectrum of the model and present some evidence in favour of Hagedorn and fractal behaviours. The decompactification limit of noncommutative torus instantons is shown to map in a very precise way, at both the classical and quantum level, onto fluxon solutions on the noncommutative plane. The weak-coupling singularities of the usual Gross-Taylor string partition function for QCD on the torus are studied in the instanton representation and its double scaling limit, appropriate for the mapping onto noncommutative gauge theory, is shown to be a generating function for the volumes of the principal moduli spaces of holomorphic differentials. The noncommutative deformation of this moduli space geometry is described and appropriate open string interpretations are proposed in terms of the fluxon expansion., Comment: 70 pages, 6 figures

Published

2004

48. Non-commutative topologically massive gauge theory

Author

Caporaso, Nicola, Griguolo, Luca, Pasquetti, Sara, and Seminara, Domenico

Subjects

High Energy Physics - Theory

Abstract

We investigate the perturbative dynamics of noncommutative topologically massive gauge theories with softly broken supersymmetry. The deformed dispersion relations induced by noncommutativity are derived and their implications on the quantum consistency of the theory are discussed., Comment: 11 Pages, 1 figure;requires ws-procs9x6.cls and rotating_pr.sty (World Scientific proceedings style, 9 x 6 inch trim size); Presented at Deserfest: A Celebration of the Life and Works of Stanley Deser, Ann Arbor, Michigan, 3-5 Apr 2004

Published

2004

49. Classical Solutions of the TEK Model and Noncommutative Instantons in Two Dimensions

Author

Griguolo, Luca and Seminara, Domenico

Subjects

High Energy Physics - Theory

Abstract

The twisted Eguchi-Kawai (TEK) model provides a non-perturbative definition of noncommutative Yang-Mills theory: the continuum limit is approached at large $N$ by performing suitable double scaling limits, in which non-planar contributions are no longer suppressed. We consider here the two-dimensional case, trying to recover within this framework the exact results recently obtained by means of Morita equivalence. We present a rather explicit construction of classical gauge theories on noncommutative toroidal lattice for general topological charges. After discussing the limiting procedures to recover the theory on the noncommutative torus and on the noncommutative plane, we focus our attention on the classical solutions of the related TEK models. We solve the equations of motion and we find the configurations having finite action in the relevant double scaling limits. They can be explicitly described in terms of twist-eaters and they exactly correspond to the instanton solutions that are seen to dominate the partition function on the noncommutative torus. Fluxons on the noncommutative plane are recovered as well. We also discuss how the highly non-trivial structure of the exact partition function can emerge from a direct matrix model computation. The quantum consistency of the TEK formulation is eventually checked by computing Wilson loops in a particular limit., Comment: 41 pages, JHEP3. Minor corrections, references added

Published

2003

50. Wilsonian Renormalization Group and the Non-Commutative IR/UV Connection

Author

Griguolo, Luca and Pietroni, Massimo

Subjects

High Energy Physics - Theory

Abstract

We study the IR/UV connection of the four-dimensional non-commutative phi^4 theory by using the Wilsonian Renormalization Group equation. Extending the usual formulation to the non-commutative case we are able to prove UV renormalizability to all orders in perturbation theory. The full RG equations are finite in the IR, but perturbative approximations of them are plagued by IR divergences. The latter can be systematically resummed in a way analogous to what is done in finite temperature field theory. As an application, next-to-leading order corrections to the two-point function are explicitly computed. The usual Wilsonian picture, i.e. the insensitivity of the IR regime to the UV, does not hold in the non-commutative case. Nevertheless it can be partially recovered by a matching procedure, in which a high-energy theory, defined in the deep non-commutative regime, is connected at some intermediate scale to a commutative low-energy theory. The latter knows about non-commutativity only through the boundary conditions for two would-be irrelevant couplings., Comment: 27 pages, 4 figures

Published

2001