Your search keyword '"Bianchi, Marco S."' showing total 240 results

1. Transcendentality of ABJM two-point functions

Author

Bianchi, Marco S.

Subjects

High Energy Physics - Theory

Abstract

We compute the two-point function of protected dimension-1 operators in ABJM up to two loops in dimensional regularization. The result exhibits uniform transcendentality empirically, which we conjecture to hold at all orders. We leverage this property to streamline the reconstruction of the dimensional regularization expansion of master integrals in terms of bases of Euler sums of uniform transcendental weight.

Published

2024

2. Framing fermionic Wilson loops in ABJ(M)

Author

Bianchi, Marco S., Castiglioni, Luigi, Penati, Silvia, Tenser, Marcia, and Trancanelli, Diego

Subjects

High Energy Physics - Theory

Abstract

Framing plays a central role in the evaluation of Wilson loops in theories with Chern-Simons actions. In pure Chern-Simons theory, it guarantees topological invariance, while in theories with matter like ABJ(M), our theory of interest, it is essential to enforce the cohomological equivalence of different BPS Wilson loops. This is the case for the 1/6 BPS bosonic and the 1/2 BPS fermionic Wilson loops, which have the same expectation value when computed as matrix model averages from localization. This equivalence holds at framing $\mathfrak{f}=1$, which has so far been a challenge to implement in perturbative evaluations. In this paper, we compute the expectation value of the 1/2 BPS fermionic circle of ABJ(M) theory up to two loops in perturbation theory at generic framing. This is achieved by a careful analysis of fermionic Feynman diagrams, isolating their framing dependent contributions and evaluating them in point-splitting regularization using framed contours. Specializing our result to $\mathfrak{f}=1$ we recover exactly the matrix model prediction, thus realizing for the first time a direct perturbative check of localization for this operator. We also generalize our computation to the case of a multiply wound circle, again matching the corresponding matrix model prediction., Comment: 41 pages, 4 figures

Published

2024

3. Protected and uniformly transcendental

Author

Bianchi, Marco S.

Subjects

High Energy Physics - Theory

Abstract

We show that the two-point function of protected bi-scalar operators in ${\cal N}=4$ SYM evaluated in dimensional regularization exhibits a uniform degree of transcendentality up to three-loop order. We conjecture that this property holds for the whole perturbative series and leverage the explicit results to postulate a prediction for the leading, order $\epsilon$, correction to all loop orders. We also consider the soft limit of three-point functions of such operators in momentum space and point out a simple and surprising perturbative relation to two-point functions, which we also extrapolate to all loop orders.

Published

2023

4. Two spinning Konishi operators at three loops

Author

Bianchi, Marco S.

Subjects

High Energy Physics - Theory

Abstract

We present the three-point function of two spin-two and one scalar twist-two operators in N=4 SYM up to three perturbative orders at weak coupling, obtained via a direct Feynman diagrammatic calculation., Comment: v2: fixed errors in formulae (2.4), (2.6) and (5.21)

Published

2023

5. Three twist-two, two spins, two loops

Author

Bianchi, Marco S.

Subjects

High Energy Physics - Theory

Abstract

I consider three-point functions of twist-two operators in N=4 SYM, two of which endowed with spin. I supply perturbative data up to twelve units of spins and second perturbative order at weak coupling.

Published

2021

6. On three-point functions in ABJM and the latitude Wilson loop

Author

Bianchi, Marco S.

Subjects

High Energy Physics - Theory

Abstract

I consider three-point functions of twist-one operators in ABJM at weak coupling. I compute the structure constant of correlators involving one twist-one un-protected operator and two protected ones for a few finite values of the spin, up to two-loop order. As an application I enforce a limit on the gauge group ranks, in which I relate the structure constant for three chiral primary operators to the expectation value of a supersymmetric Wilson loop. Such a relation is then used to perform a successful five-loop test on the matrix model conjectured to describe the supersymmetric Wilson loop., Comment: 42 pages

Published

2020

7. 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

8. On structure constants with two spinning twist-two operators

Author

Bianchi, Marco S.

Subjects

High Energy Physics - Theory

Abstract

I consider three-point functions of one protected and two unprotected twist-two operators with spin in N=4 SYM at weak coupling. At one loop I formulate an empiric conjecture for the dependence of the corresponding structure constants on the spins of the operators. Using such an ansatz and some input from explicit perturbative results, I fix completely various infinite sets of one-loop structure constants of these three-point functions. Finally, I determine the two-loop corrections to the structure constants for a few fixed values of the spins of the operators., Comment: 21 pages

Published

2019

9. Erratum to: Two spinning Konishi operators at three loops.

Author

Bianchi, Marco S.

Published

2023

10. A note on three-point functions of unprotected operators

Author

Bianchi, Marco S.

Subjects

High Energy Physics - Theory

Abstract

Given the recent progress in computing three-point functions in N=4 SYM via integrability, I provide here a novel direct calculation of some structure constants at weak coupling. The main focus is on correlators involving more than one unprotected operator, at two-loop order in the perturbative expansion., Comment: 17 pages

Published

2018

11. 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

12. ABJM $\theta$-Bremsstrahlung at four loops and beyond: non-planar corrections

Author

Bianchi, Marco S. and Mauri, Andrea

Subjects

High Energy Physics - Theory

Abstract

We consider the Bremsstrahlung function associated to a 1/6-BPS Wilson loop in ABJM theory, with a cusp in the couplings to scalar fields. We non-trivially extend its recent four-loop computation at weak coupling to include non-planar corrections. We have recently proposed a conjecture relating this object to supersymmetric circular Wilson loops with multiple windings, which can be computed via localization. We find agreement between this proposal and the perturbative computation of the Bremsstrahlung function, including color sub-leading corrections. This supports the conjecture and hints at its validity beyond the planar approximation., Comment: 22 pages

Published

2017

13. ABJM $\theta$-Bremsstrahlung at four loops and beyond

Author

Bianchi, Marco S. and Mauri, Andrea

Subjects

High Energy Physics - Theory

Abstract

In ABJ(M) theory a generalized cusp can be constructed out of the 1/6 BPS Wilson line by introducing an angle $\varphi$ in the spacial contour and/or an angle $\theta$ in the internal R-symmetry space. The small angles limits of its anomalous dimension are controlled by corresponding Bremsstrahlung functions. In this note we compute the internal space $\theta$-Bremsstrahlung function to four loops at weak coupling in the planar limit. Based on this result, we propose an all order conjecture for the $\theta$-Bremsstrahlung function., Comment: 40 pages; v2: references added, JHEP published extended version

Published

2017

14. 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

15. The canonical form has got baubles

Author

Bianchi, Marco S. and Leoni, Matias

Subjects

High Energy Physics - Theory

Abstract

The method of differential equations in canonical form has proven a powerful tool for solving multiloop Feynman integrals. In this note we test this procedure away from four dimensions. Namely, we consider the simple example of a massless doublebox, expanded in dimensional regularization around six dimensions. We achieve a canonical form for the relevant master integrals and solve them in terms of harmonic polylogarithms up to transcendental order 9. The integral basis of uniform transcendentality requires increasing indices of propagators. According to the standard graphical jargon, this amounts to decorating the integrals with baubles, like on Christmas trees, or rather loops in this case. The results can be useful for studying amplitudes in six dimensions., Comment: 16 pages, 1 figure

Published

2016

16. A $QQ\to QQ$ planar doublebox in canonical form

Author

Bianchi, Marco S. and Leoni, Matias

Subjects

High Energy Physics - Phenomenology

Abstract

We consider a planar doublebox with four massive external momenta and two massive internal propagators. We derive the system of differential equations for the relevant master integrals, cast it in canonical form, write it as a $d\log$ form and solve it in terms of iterated integrals up to depth four., Comment: 12 pages, 2 figures

Published

2016

17. 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

18. An exact limit of ABJM

Author

Bianchi, Marco S. and Leoni, Matias

Subjects

High Energy Physics - Theory

Abstract

We study planar ABJM in a limit where one coupling is negligible compared to the other. We provide a recipe for exactly solving the expectation value of bosonic BPS Wilson loops on arbitrary smooth contours, or the leading divergence for cusped ones, using results from localization. As an application, we compute the exact (generalized) cusp anomalous dimension and Bremsstrahlung function and use it to determine the interpolating $h$-function. We finally prove a conjecture on the exact form of the dilatation operator in a closed sector, hinting at the integrability of this limit., Comment: 5 pages

Published

2016

19. Green-Schwarz superstring on the lattice

Author

Bianchi, Lorenzo, Bianchi, Marco S., Forini, Valentina, Leder, Björn, and Vescovi, Edoardo

Subjects

High Energy Physics - Theory, High Energy Physics - Lattice

Abstract

We consider possible discretizations for a gauge-fixed Green-Schwarz action of Type IIB superstring. We use them for measuring the action, from which we extract the cusp anomalous dimension of planar $\mathcal{N}=4$ SYM as derived from AdS/CFT, as well as the mass of the two $AdS$ excitations transverse to the relevant null cusp classical string solution. We perform lattice simulations employing a Rational Hybrid Monte Carlo (RHMC) algorithm and two Wilson-like fermion discretizations, one of which preserves the global $SO(6)$ symmetry of the model. We compare our results with the expected behavior at various values of $g=\frac{\sqrt{\lambda}}{4\pi}$. For both the observables, we find a good agreement for large $g$, which is the perturbative regime of the sigma-model. For smaller values of $g$, the expectation value of the action exhibits a deviation compatible with the presence of quadratic divergences. After their non-perturbative subtraction the continuum limit can be taken, and suggests a qualitative agreement with the non-perturbative expectation from AdS/CFT. Furthermore, we detect a phase in the fermion determinant, whose origin we explain, that for very small $g$ leads to a sign problem not treatable via standard reweigthing. The continuum extrapolations of the observables in the two different discretizations agree within errors, which is strongly suggesting that they lead to the same continuum limit. Part of the results discussed here were presented earlier in arXiv:1601.04670., Comment: 33 pages, 14 figures, 2 Tables. Text overlap with the Conference Proceedings where some preliminary results were presented, arXiv:1601.04670v1

Published

2016

20. A note on multiply wound BPS Wilson loops in ABJM

Author

Bianchi, Marco S.

Subjects

High Energy Physics - Theory

Abstract

We consider BPS Wilson loops in planar ABJM theory, wound multiple times around the great circle. We compute the expectation value of the 1/6-BPS and 1/2-BPS Wilson loops to three- and two-loop order in perturbation theory, respectively, dealing with the combinatorics of multiple winding via recursive relations. For the 1/6-BPS Wilson loop we perform the computation at generic framing and at framing 1 we find agreement with the localization result. For the 1/2-BPS Wilson loop we compute the expectation value at trivial framing and by comparison with the matrix model expression we extract the framing dependence of the fermion diagrams., Comment: 40 pages

Published

2016

21. 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

22. Lattice and string worldsheet in AdS/CFT: a numerical study

Author

Forini, Valentina, Bianchi, Lorenzo, Bianchi, Marco S., Leder, Björn, and Vescovi, Edoardo

Subjects

High Energy Physics - Lattice, High Energy Physics - Theory

Abstract

We consider a possible discretization for the gauge-fixed Green-Schwarz (two-dimensional) sigma-model action for the Type IIB superstring and use it for measuring the cusp anomalous dimension of planar $\mathcal{N}=4$ SYM as derived from string theory. We perform lattice simulations employing a Rational Hybrid Monte Carlo (RHMC) algorithm and a Wilson-like fermion discretization. In this preliminary study, we compare our results with the expected behavior for very large values of $g=\frac{\sqrt{\lambda}}{4\pi}$, which is the perturbative regime of the sigma-model, and find a qualitative agreement at finite lattice spacing. For smaller $g$ the continuum limit is obstructed by a divergence. We also detect a phase in the fermion determinant, whose origin we explain, which for small $g$ leads to a sign problem not treatable via standard reweigthing. Results presented here are discussed thoroughly in~\cite{toappear}., Comment: Contribution to the proceedings of Lattice 2015, July 14--18, Kobe, Japan

Published

2016

23. On the scattering of gluons in the GKP string

Author

Bianchi, Lorenzo and Bianchi, Marco S.

Subjects

High Energy Physics - Theory

Abstract

We compute the one-loop S-matrix for the light bosonic excitations of the GKP string at strong coupling. These correspond, on the gauge theory side, to gluon insertions in the GKP vacuum. We perform the calculation by Feynman diagrams in the worldsheet theory and we compare the result to the integrability prediction, finding perfect agreement for the scheme independent part. For scheme dependent rational terms we test different schemes and find that a recent proposal reproduces exactly the integrability prediction., Comment: 50 pages, 8 tables, 13 figures

Published

2015

24. Worldsheet scattering for the GKP string

Author

Bianchi, Lorenzo and Bianchi, Marco S.

Subjects

High Energy Physics - Theory

Abstract

We initiate the perturbative study of the S-matrix for the excitations on top of the GKP vacuum at strong coupling. Using the string sigma model action expanded around the null cusp classical solution, we compute the tree-level S-matrix elements and compare them with the predictions from the asymptotic Bethe Ansatz. We also check the factorization of the three-body S-matrix for various bosonic processes, finding precise agreement with the constraints imposed by integrability., Comment: 33 pages, 13 figures

Published

2015

25. Quantum dispersion relations for the $AdS_4 \times CP^3$ GKP string

Author

Bianchi, Lorenzo and Bianchi, Marco S.

Subjects

High Energy Physics - Theory

Abstract

We compute the one-loop correction to the dispersion relations of the excitations of the $AdS_4 \times CP^3$ sigma model dual to ABJM theory, expanded around the cusp background. The results parallel those of N = 4 SYM. As in that case, the dispersion relations are compatible with the predictions from the Bethe ansatz for the GKP string, though showing some known discrepancies on which we comment., Comment: 30 pages, 3 figures; v2: published version

Published

2015

26. A note on scattering amplitudes on the moduli space of ABJM

Author

Bianchi, Marco S.

Subjects

High Energy Physics - Theory

Abstract

We compute the simplest one-loop planar amplitudes in Higgsed ABJM theory at a generic point of the moduli space. We explicitly check that they can be expressed in terms of integrals which are invariant under dual conformal symmetry involving masses, in a similar fashion as in N=4 SYM., Comment: 32 pages, v2: published version

Published

2015

27. Dilogarithm ladders from Wilson loops

Author

Bianchi, Marco S. and Leoni, Matias

Subjects

High Energy Physics - Theory

Abstract

We consider a light-like Wilson loop in N=4 SYM evaluated on a regular n-polygon contour. Sending the number of edges to infinity the polygon approximates a circle and the expectation value of the light-like WL is expected to tend to the localization result for the circular one. We show this explicitly at one loop, providing a prescription to deal with the divergences of the light-like WL and the large n limit. Taking this limit entails evaluating certain sums of dilogarithms which, for a regular polygon, evaluate to the same constant independently of n. We show that this occurs thanks to underpinning dilogarithm identities, related to the so-called polylogarithm ladders, which appear in rather different contexts of physics and mathematics and enable us to perform the large n limit analytically., Comment: 11 pages, 3 figures

Published

2014

28. Two-loop cusp anomaly in ABJM at strong coupling

Author

Bianchi, Lorenzo, Bianchi, Marco S., Bres, Alexis, Forini, Valentina, and Vescovi, Edoardo

Subjects

High Energy Physics - Theory

Abstract

We compute the null cusp anomalous dimension of ABJM theory at strong coupling up to two-loop order. This is done by evaluating corrections to the corresponding superstring partition function, weighted by the $AdS_4\times \mathbb{CP}^3$ action in AdS light-cone gauge. We compare our result, where we use an anomalous shift in the $AdS_4$ radius, with the cusp anomaly of $\mathcal{N}=4$ SYM, and extract the two-loop contribution to the non-trivial integrable coupling $h(\lambda)$ of ABJM theory. It coincides with the strong coupling expansion of the exact expression for $ h(\lambda)$ recently conjectured by Gromov and Sizov. Our work provides thus a non-trivial perturbative check for the latter, as well as evidence for two-loop UV-finiteness and quantum integrability of the Type IIA $AdS_4\times \mathbb{CP}^3$ superstring in this gauge., Comment: 26 pages, few typos corrected, one footnote added, one reference added

Published

2014

29. On the ABJM four-point amplitude at three loops and BDS exponentiation

Author

Bianchi, Marco S. and Leoni, Matias

Subjects

High Energy Physics - Theory

Abstract

We study the three-loop four-point amplitude in ABJM theory. We determine the dual conformal invariant integrals with highest number of propagators and fix their coefficients by two-particle cuts. Evaluating such a combination of integrals in dimensional regularization we provide evidence for exponentiation of the amplitude, including the finite terms. In addition we show that the three-loop amplitude can be expressed in terms of classical polylogarithms of uniform degree of transcendentality., Comment: 31 pages, 4 figures

Published

2014

30. 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

31. Non-planarity through unitarity in ABJM

Author

Bianchi, Lorenzo and Bianchi, Marco S.

Subjects

High Energy Physics - Theory

Abstract

We use unitarity techniques to compute the two-loop non-planar corrections to the Sudakov form factor and the four-point amplitude in ABJM theory. We start by reconstructing non-planar integrals from two-particle cuts in three dimensions. This causes ambiguities, due to the one-loop four-point amplitude being subleading in dimensional regularization. We provide a prescription to circumvent them and show that it leads to the correct results, as checked against the recent Feynman diagram computation. For the amplitude we point out an alternative basis of integrals, including a non-planar double-box with a numerator inspired by color-kinematics duality. We reproduce the result using a combination thereof with the coefficients fixed by generalized unitarity. For BLG theory we propose that this gives the form of the amplitude satisfying color-kinematics duality. Finally, we compute the complete two-loop amplitude of three-dimensional N = 8 SYM, and the corresponding four-point amplitude in N = 16 supergravity as a double copy., Comment: 41 pages, 7 figures, misprints corrected, appendix on one-loop d-dimensional cuts added

Published

2013

32. The 1/2 BPS Wilson loop in ABJ(M) at two loops: The details

Author

Bianchi, Marco S., Giribet, Gaston, Leoni, Matias, and Penati, Silvia

Subjects

High Energy Physics - Theory

Abstract

We compute the expectation value of the 1/2 BPS circular Wilson loop operator in ABJ(M) theory at two loops in perturbation theory. Our result turns out to be in exact agreement with the weak coupling limit of the prediction coming from localization, including finite N contributions associated to non-planar diagrams. It also confirms the identification of the correct framing factor that connects framing-zero and framing-one expressions, previously proposed. The evaluation of the 1/2 BPS operator is made technically difficult in comparison with other observables of ABJ(M) theory by the appearance of integrals involving the coupling between fermions and gauge fields, which are absent for instance in the 1/6 BPS case. We describe in detail how to analytically solve these integrals in dimensional regularization with dimensional reduction (DRED). By suitably performing the physical limit to three dimensions we clarify the role played by short distance divergences on the final result and the mechanism of their cancellation., Comment: 54 pages, 2 figures

Published

2013

33. ABJM amplitudes and WL at finite N

Author

Bianchi, Marco S., Leoni, Marta, Leoni, Matias, Mauri, Andrea, Penati, Silvia, and Santambrogio, Alberto

Subjects

High Energy Physics - Theory

Abstract

We evaluate ABJM observables at two loops, for any value of the rank N of the gauge group. We compute the color subleading contributions to the four-point scattering amplitude in ABJM at two loops. Contrary to the four dimensional case, IR divergent N-subleading contributions are proportional to leading poles in the regularization parameter. We then exploit the non-planar calculation for the amplitude to derive an expression for the two-loop Sudakov form factor at any N. In the planar limit the result coincides with the one recently obtained in literature by using Feynman diagrams and unitarity. Finally, we analyze the subleading contributions to the light-like four-cusps Wilson loop and interpret the result in terms of the non-abelian exponentiation theorem. All these perturbative results satisfy the uniform transcendentality principle, hinting at its validity in ABJM beyond the planar limit., Comment: 27 pages, 5 figures, result for ABJ form factor corrected

Published

2013

34. Light-like Wilson loops in ABJM and maximal transcendentality

Author

Bianchi, Marco S., Giribet, Gaston, Leoni, Matias, and Penati, Silvia

Subjects

High Energy Physics - Theory

Abstract

We revisit the computation of the two-loop light-like tetragonal Wilson loop for three dimensional pure Chern-Simons and N=6 Chern-Simons-matter theory, within dimensional regularization with dimensional reduction scheme. Our examination shows that, contrary to prior belief, the result respects maximal transcendentality as is the case of the four-point scattering amplitude of the theory. Remarkably, the corrected result matches exactly the scattering amplitude both in the divergent and in the finite parts, constants included., Comment: 11 pages

Published

2013

35. The 1/2 BPS Wilson loop in ABJM theory at two loops

Author

Bianchi, Marco S., Giribet, Gaston, Leoni, Matias, and Penati, Silvia

Subjects

High Energy Physics - Theory

Abstract

We compute the expectation value of the 1/2 BPS circular Wilson loop in ABJM theory at two loops in perturbation theory. The result shows perfect agreement with the prediction from localization and the proposed framing factor., Comment: 5 pages

Published

2013

36. N=8 SYM vs. N=6 Chern-Simons: Four-point amplitudes at two-loops

Author

Bianchi, Marco S. and Leoni, Matias

Subjects

High Energy Physics - Theory

Abstract

We compute the four-point amplitude in 3d N=8 SYM at two loops, by solving the three dimensional scalar doublebox in dimensional regularization. We compare it to the same result in the ABJM theory, to which maximal SYM should flow in the infrared at strong coupling. After proper rescalings, we find that the two amplitudes coincide in the Regge limit., Comment: 1+16 pages, 2 figures

Published

2012

37. Minimally helicity violating, maximally simple scalar amplitudes in N=4 SYM

Author

Bianchi, Marco S., Leoni, Matias, and Penati, Silvia

Subjects

High Energy Physics - Theory

Abstract

In planar N=4 SYM we study a particular class of helicity preserving amplitudes. These are scalar amplitudes whose flavor configuration is chosen in such a way that only a limited number of diagrams is allowed, which exhibit an iterative structure. For such amplitudes we evaluate the tree level and one-loop contributions, providing a general formula valid for any number of particles. The ratio between the one-loop and tree level results is a simple combination of dual conformally invariant box functions with at most two massive legs. Along with the MHV and NMHV series, this constitutes the third known infinite sequence of one-loop amplitudes in N=4 SYM., Comment: 22 pages, 7 figures, published version

Published

2012

38. One Loop Amplitudes In ABJM

Author

Bianchi, Marco S., Leoni, Matias, Mauri, Andrea, Penati, Silvia, and Santambrogio, Alberto

Subjects

High Energy Physics - Theory

Abstract

For three dimensional N=6 superconformal field theories we compute one-loop scattering amplitudes for any number of external particles. We focus on a particular subsector of N=2 invariant superamplitudes for which the ordinary perturbative evaluation becomes very easy. The result we obtain is in general non-vanishing. For six external particles our findings are sufficient for determining the complete expression of the N=6 superamplitude at this order. We discuss the symmetries of the result and its anomalous variation under superconformal generators., Comment: 1+34 pages, 4 figures, references added, published version

Published

2012

39. An all order identity between ABJM and N=4 SYM four-point amplitudes

Author

Bianchi, Marco S., Leoni, Matias, and Penati, Silvia

Subjects

High Energy Physics - Theory

Abstract

We derive an exact algebraic identity between the two-loop four-point amplitude in ABJM theory and the corresponding one-loop amplitude in N=4 SYM theory. This identity generalizes previous partial results to an exact relation valid at all orders in the IR regulator. Moreover, it allows to conjecture an exact iterative expression for the complete three dimensional amplitude in terms of the BDS ansatz for the four dimensional one, indicating that the strict relation between the two amplitudes experimented at two loops might propagate to all orders. In particular, an almost complete expression for the ABJM amplitude at four loops is derived., Comment: 1+24 pages

Published

2011

40. Scattering in ABJ theories

Author

Bianchi, Marco S., Leoni, Matias, Mauri, Andrea, Penati, Silvia, and Santambrogio, Alberto

Subjects

High Energy Physics - Theory

Abstract

We study the correspondence between scattering amplitudes and Wilson loops in three-dimensional Chern-Simons matter theories. In particular, using N=2 superspace formalism, we compute at one loop the whole spectrum of four-point superamplitudes for generic N>=2 supersymmetric theories and find a vanishing result for N=6 ABJ(M) and N=8 BLG models. This restricts the possible range of theories for which Wilson loops/scattering amplitudes duality might work. At two loops, we present the computation of the four-point ABJ scattering amplitude for external chiral superfields. Extending the known result for the ABJM Wilson loop to the ABJ case we find perfect agreement. We also discuss the dual conformal invariance of our results and the relationship between the Feynman diagram computation and unitarity methods. While for the ABJM theory dual conformally invariant integrals exactly reproduce the amplitude, for the ABJ case this happens only up to a residual constant depending on the parity-violating parameter. Finally we propose a BDS-like exponentiation for the amplitude based on an analogy with the four-dimensional N=4 SYM case, and discuss its strong coupling dual counterpart., Comment: 1+54 pages, 8 figures

Published

2011

41. Scattering Amplitudes/Wilson Loop Duality In ABJM Theory

Author

Bianchi, Marco S., Leoni, Matias, Mauri, Andrea, Penati, Silvia, and Santambrogio, Alberto

Subjects

High Energy Physics - Theory

Abstract

For N=6 superconformal Chern-Simons-matter theories in three dimensions, by a direct superspace Feynman diagram approach, we compute the two-loop four-point scattering amplitude with external chiral matter fields. We find that the result is in perfect agreement with the two-loop result for a light-like four-polygon Wilson loop. This is a nontrivial evidence of the scattering amplitudes/Wilson loop duality in three dimensions. Moreover, both the IR divergent and the finite parts of our two-loop result agree with a BDS-like ansatz for all-loop amplitudes where the scaling function is given in terms of the N=4 SYM one, according to the conjectured Bethe equations for ABJM. Consequently, we are able to make a prediction for the four-loop correction to the amplitude. We also discuss the dual conformal invariance of the two-loop result., Comment: 1+16 pages, 2 figures, minor modifications and references added

Published

2011

42. From Correlators to Wilson Loops in Chern-Simons Matter Theories

Author

Bianchi, Marco S., Leoni, Matias, Mauri, Andrea, Penati, Silvia, Ratti, CarloAlberto, and Santambrogio, Alberto

Subjects

High Energy Physics - Theory

Abstract

We study n-point correlation functions for chiral primary operators in three dimensional supersymmetric Chern-Simons matter theories. Our analysis is carried on in N=2 superspace and covers N=2,3 supersymmetric CFT's, the N=6 ABJM and the N=8 BLG models. In the limit where the positions of adjacent operators become light-like, we find that the one-loop n-point correlator divided by its tree level expression coincides with a light-like n-polygon Wilson loop. Remarkably, the result can be simply expressed as a linear combination of five dimensional two-mass easy boxes. We manage to evaluate the integrals analytically and find a vanishing result, in agreement with previous findings for Wilson loops., Comment: 32 pages, 6 figures, JHEP3

Published

2011

43. The Conformal Manifold of Chern-Simons Matter Theories

Author

Bianchi, Marco S. and Penati, Silvia

Subjects

High Energy Physics - Theory

Abstract

We determine perturbatively the conformal manifold of N=2 Chern-Simons matter theories with the aim of checking in the three dimensional case the general prescription based on global symmetry breaking, recently introduced. We discuss in details few remarkable cases like the N=6 ABJM theory and its less supersymmetric generalizations with/without flavors. In all cases we find perfect agreement with the predictions of global symmetry breaking prescription., Comment: 1+17 pages, 1 figure, references added

Published

2010

44. Infrared Stability of N=2 Chern-Simons Matter Theories

Author

Bianchi, Marco S., Penati, Silvia, and Siani, Massimo

Subjects

High Energy Physics - Theory

Abstract

According to the AdS4/CFT3 correspondence, N=2 supersymmetric Chern-Simons matter theories should have a stable fixed point in the infrared. In order to support this prediction we study RG flows of two-level Chern-Simons matter theories with/without flavors induced by the most general marginal superpotential compatible with N=2 supersymmetry. At two loops we determine the complete spectrum of fixed points and study their IR stability. Our analysis covers a large class of models including perturbations of the ABJM/ABJ theories with and without flavors, N=2,3 theories with different CS levels corresponding to turning on a Romans mass and beta-deformations. In all cases we find curves (or surfaces) of fixed points which are globally IR stable but locally unstable in the following sense: The system has only one direction of stability which in the ABJM case coincides with the maximal global symmetry preserving perturbation, whereas along any other direction it flows to a different fixed point on the surface. The question of conformal invariance vs. finiteness is also addressed: While in general vanishing beta-functions imply two-loop finiteness, we find a particular set of flavored theories where this is no longer true., Comment: 1+30 pages, 8 figures; v2: references added

Published

2009

45. Infrared stability of ABJ-like theories

Author

Bianchi, Marco S., Penati, Silvia, and Siani, Massimo

Subjects

High Energy Physics - Theory

Abstract

We consider marginal deformations of the superconformal ABJM/ABJ models which preserve N=2 supersymmetry. We determine perturbatively the spectrum of fixed points and study their infrared stability. We find a closed line of fixed points which is IR stable. The fixed point corresponding to the ABJM/ABJ models is stable under marginal deformations which respect the original SU(2)xSU(2) invariance, while deformations which break this group destabilize the theory which then flows to a less symmetric fixed point. We discuss the addition of flavor degrees of freedom. We prove that in general a flavor marginal superpotential does not destabilize the system in the IR. An exception is represented by a marginal coupling which mixes matter charged under different gauge sectors. Finally, we consider the case of relevant deformations which should drive the system to a strongly coupled IR fixed point recently investigated in arXiv:0909.2036 [hep-th]., Comment: 1+11 pages, 4 figures; v2: minor corrections

Published

2009

46. Nonanticommutative U(1) SYM theories: Renormalization, fixed points and infrared stability

Author

Bianchi, Marco S., Penati, Silvia, Romagnoni, Alberto, and Siani, Massimo

Subjects

High Energy Physics - Theory

Abstract

Renormalizable nonanticommutative SYM theories with chiral matter in the adjoint representation of the gauge group have been recently constructed in [arXiv:0901.3094]. In the present paper we focus on the U*(1) case with matter interacting through a cubic superpotential. For a single flavor, in a superspace setup and manifest background covariant approach we perform the complete one-loop renormalization and compute the beta-functions for all couplings appearing in the action. We then generalize the calculation to the case of SU(3) flavor matter with a cubic superpotential viewed as a nontrivial NAC generalization of the ordinary abelian N=4 SYM and its marginal deformations. We find that, as in the ordinary commutative case, the NAC N=4 theory is one-loop finite. We provide general arguments in support of all-loop finiteness. Instead, deforming the superpotential by marginal operators gives rise to beta-functions which are in general non-vanishing. We study the spectrum of fixed points and the RG flows. We find that nonanticommutativity always makes the fixed points unstable., Comment: 1+30 pages, 5 figures

Published

2009

47. Protected and uniformly transcendental

Author

Bianchi, Marco S., primary

Published

2023

48. Two spinning Konishi operators at three loops.

Author

Bianchi, Marco S., primary

Published

2023

49. A note on three-point functions of unprotected operators

Author

Bianchi, Marco S.

Published

2019

50. On the scattering of gluons in the GKP string

Author

Bianchi, Lorenzo and Bianchi, Marco S.

Published

2016