Your search keyword '"Ghosh, Shayan"' showing total 21 results

1. Massive One-loop Conformal Feynman Integrals and Quadratic Transformations of Multiple Hypergeometric Series

Author

Ananthanarayan, B., Banik, Sumit, Friot, Samuel, Ghosh, Shayan, Ananthanarayan, B., Banik, Sumit, Friot, Samuel, and Ghosh, Shayan

Abstract

The computational technique of $N$-fold Mellin-Barnes (MB) integrals, presented in a companion paper by the same authors, is used to derive sets of series representations of the massive one-loop conformal 3-point Feynman integral in various configurations. This shows the great simplicity and efficiency of the method in nonresonant cases (generic propagator powers) as well as some of its subtleties in the resonant ones (for unit propagator powers). We confirm certain results in the physics and mathematics literature and provide many new results, some of them dealing with the more general massive one-loop conformal $n$-point case. In particular, we prove two recent conjectures that give the massive one-loop conformal $n$-point integral (for generic propagator powers) in terms of multiple hypergeometric series. We show how these conjectures, that were deduced from a Yangian bootstrap analysis, are related by a tower of new quadratic transformations in Hypergeometric Functions Theory. Finally, we also use our MB method to identify spurious contributions that can arise in the Yangian approach., Comment: Accepted in Phys. Rev. D. One section added. Typos corrected as well as several equations (mainly in Section 5). 30 pages, 6 figures

Published

2020

2. Multiple Series Representations of $N$-fold Mellin-Barnes Integrals

Author

Ananthanarayan, B., Banik, Sumit, Friot, Samuel, Ghosh, Shayan, Ananthanarayan, B., Banik, Sumit, Friot, Samuel, and Ghosh, Shayan

Abstract

Mellin-Barnes (MB) integrals are well-known objects appearing in many branches of mathematics and physics, ranging from hypergeometric functions theory to quantum field theory, solid state physics, asymptotic theory, etc. Although MB integrals have been studied for more than one century, until now there is no systematic computational technique of the multiple series representations of $N$-fold MB integrals for $N>2$. Relying on a simple geometrical analysis based on conic hulls, we show here a solution to this important problem. Our method can be applied to resonant (i.e logarithmic) and nonresonant cases and, depending on the form of the MB integrand, it gives rise to convergent series representations or diverging asymptotic ones. When convergent series are obtained the method also allows, in general, the determination of a single master series for each series representation, which considerably simplifies convergence studies and/or numerical checks. We provide, along with this paper, a Mathematica implementation of our technique with examples of applications. Among them, we present the first evaluation of the hexagon and double box conformal Feynman integrals with unit propagator powers., Comment: Significantly revised version accepted in Phys. Rev. Lett. Important additions: ancillary files for the automatization of our MB computational method, including the Mathematica package MBConicHulls.wl and the notebook Examples.nb with some examples of applications (among others, the Double Box and Hexagon conformal Feynman integrals with unit propagator powers)

Published

2020

3. New analytic continuations for the Appell $F_4$ series from quadratic transformations of the Gauss $_{2}F_1$ function

Author

Ananthanarayan, B., Friot, Samuel, Ghosh, Shayan, Hurier, Anthony, Ananthanarayan, B., Friot, Samuel, Ghosh, Shayan, and Hurier, Anthony

Abstract

We present new analytic continuation formulas for the Appell $F_4(a,b;c,d;x,y)$ double hypergeometric series where $d=a-b+1$, which allows quadratic transformations of the Gauss ${}_2F_1$ hypergeometric function to be used in the intermediate steps of the derivation. Such formulas are of relevance to loop calculations of quantum field theory where they can been used, for instance, to obtain new series representations of the two-loop massive sunset Feynman diagram. The analytic continuation procedure introduced in this paper is also sufficiently general so as to find uses elsewhere., Comment: 15 pages, 7 figures

Published

2020

4. The Double Box and Hexagon Conformal Feynman Integrals

Author

Ananthanarayan, B., Banik, Sumit, Friot, Samuel, Ghosh, Shayan, Ananthanarayan, B., Banik, Sumit, Friot, Samuel, and Ghosh, Shayan

Abstract

The off-shell massless six-point double box and hexagon conformal Feynman integrals with generic propagator powers are expressed in terms of linear combinations of multiple hypergeometric series of the generalized Horn type. These results are derived from 9-fold Mellin-Barnes representations obtained from their dual conformal Feynman parameter representations. The individual terms in the presented expressions satisfy the differential equation that relates the double box in $D$ dimensions to the hexagon in $D+2$ dimensions., Comment: 26 pages, 1 figure

Published

2020

5. The three-loop QED contributions to the $g-2$ of charged leptons with two internal fermion loops and a class of Kamp\'e de F\'eriet series

Author

Ananthanarayan, B., Friot, Samuel, Ghosh, Shayan, Ananthanarayan, B., Friot, Samuel, and Ghosh, Shayan

Abstract

The three-loop QED mass-dependent contributions to the $g-2$ of each of the charged leptons with two internal closed fermion loops, sometimes called $A^{(6)}_3\left(\frac{m_1}{m_2}, \frac{m_1}{m_3}\right)$ in the $g-2$ literature, is revisited using the Mellin-Barnes (MB) representation technique. Results for the muon and $\tau$ lepton anomalous magnetic moments $A^{(6)}_{3,\mu}$ and $A^{(6)}_{3,\tau}$, which were known as series expansions in the lepton mass ratios up to the first few terms only, are extended to their exact expressions. The contribution to the anomalous magnetic moment of the electron $A^{(6)}_{3,e}$ is also explicitly given in closed form. In addition to this, we show that the different series representations derived from the MB representation collectively converge for all possible values of the masses. Such unexpected behavior is related to the fact that these series bring into play double hypergeometric series that belong to a class of Kamp\'e de F\'eriet series which we prove to have the same simple convergence and analytic continuation properties as the Appell $F_1$ double hypergeometric series., Comment: 31 pages, 7 figures, uncertainties in Eq.(20) and some other typos corrected

Published

2020

6. Multiple Series Representations of $N$-fold Mellin-Barnes Integrals

Author

Ananthanarayan, B., Banik, Sumit, Friot, Samuel, Ghosh, Shayan, Ananthanarayan, B., Banik, Sumit, Friot, Samuel, and Ghosh, Shayan

Abstract

Mellin-Barnes (MB) integrals are well-known objects appearing in many branches of mathematics and physics, ranging from hypergeometric functions theory to quantum field theory, solid state physics, asymptotic theory, etc. Although MB integrals have been studied for more than one century, until now there is no systematic computational technique of the multiple series representations of $N$-fold MB integrals for $N>2$. Relying on a simple geometrical analysis based on conic hulls, we show here a solution to this important problem. Our method can be applied to resonant (i.e logarithmic) and nonresonant cases and, depending on the form of the MB integrand, it gives rise to convergent series representations or diverging asymptotic ones. When convergent series are obtained the method also allows, in general, the determination of a single master series for each series representation, which considerably simplifies convergence studies and/or numerical checks. We provide, along with this paper, a Mathematica implementation of our technique with examples of applications. Among them, we present the first evaluation of the hexagon and double box conformal Feynman integrals with unit propagator powers., Comment: Significantly revised version accepted in Phys. Rev. Lett. Important additions: ancillary files for the automatization of our MB computational method, including the Mathematica package MBConicHulls.wl and the notebook Examples.nb with some examples of applications (among others, the Double Box and Hexagon conformal Feynman integrals with unit propagator powers)

Published

2020

7. Massive One-loop Conformal Feynman Integrals and Quadratic Transformations of Multiple Hypergeometric Series

Author

Ananthanarayan, B., Banik, Sumit, Friot, Samuel, Ghosh, Shayan, Ananthanarayan, B., Banik, Sumit, Friot, Samuel, and Ghosh, Shayan

Abstract

The computational technique of $N$-fold Mellin-Barnes (MB) integrals, presented in a companion paper by the same authors, is used to derive sets of series representations of the massive one-loop conformal 3-point Feynman integral in various configurations. This shows the great simplicity and efficiency of the method in nonresonant cases (generic propagator powers) as well as some of its subtleties in the resonant ones (for unit propagator powers). We confirm certain results in the physics and mathematics literature and provide many new results, some of them dealing with the more general massive one-loop conformal $n$-point case. In particular, we prove two recent conjectures that give the massive one-loop conformal $n$-point integral (for generic propagator powers) in terms of multiple hypergeometric series. We show how these conjectures, that were deduced from a Yangian bootstrap analysis, are related by a tower of new quadratic transformations in Hypergeometric Functions Theory. Finally, we also use our MB method to identify spurious contributions that can arise in the Yangian approach., Comment: Accepted in Phys. Rev. D. One section added. Typos corrected as well as several equations (mainly in Section 5). 30 pages, 6 figures

Published

2020

8. New analytic continuations for the Appell $F_4$ series from quadratic transformations of the Gauss $_{2}F_1$ function

Author

Ananthanarayan, B., Friot, Samuel, Ghosh, Shayan, Hurier, Anthony, Ananthanarayan, B., Friot, Samuel, Ghosh, Shayan, and Hurier, Anthony

Abstract

We present new analytic continuation formulas for the Appell $F_4(a,b;c,d;x,y)$ double hypergeometric series where $d=a-b+1$, which allows quadratic transformations of the Gauss ${}_2F_1$ hypergeometric function to be used in the intermediate steps of the derivation. Such formulas are of relevance to loop calculations of quantum field theory where they can been used, for instance, to obtain new series representations of the two-loop massive sunset Feynman diagram. The analytic continuation procedure introduced in this paper is also sufficiently general so as to find uses elsewhere., Comment: 15 pages, 7 figures

Published

2020

9. The Double Box and Hexagon Conformal Feynman Integrals

Author

Ananthanarayan, B., Banik, Sumit, Friot, Samuel, Ghosh, Shayan, Ananthanarayan, B., Banik, Sumit, Friot, Samuel, and Ghosh, Shayan

Abstract

The off-shell massless six-point double box and hexagon conformal Feynman integrals with generic propagator powers are expressed in terms of linear combinations of multiple hypergeometric series of the generalized Horn type. These results are derived from 9-fold Mellin-Barnes representations obtained from their dual conformal Feynman parameter representations. The individual terms in the presented expressions satisfy the differential equation that relates the double box in $D$ dimensions to the hexagon in $D+2$ dimensions., Comment: 26 pages, 1 figure

Published

2020

10. New Series Representations for the Two-Loop Massive Sunset Diagram

Author

Ananthanarayan, B., Friot, Samuel, Ghosh, Shayan, Ananthanarayan, B., Friot, Samuel, and Ghosh, Shayan

Abstract

We derive new convergent series representations for the two-loop sunset diagram with three different propagator masses m1, m2 and m3 and external momentum p by techniques of analytic continuation on a well-known triple series that corresponds to the Lauricella Fc function. The convergence regions of the new series contain regions of interest to physical problems. These include some ranges of masses and squared external momentum values which make them useful from Chiral Perturbation Theory to some regions of the parameter space of the Minimal Supersymmetric Standard Model. The analytic continuation results presented on the Lauricella series could be used in other settings as well., Comment: 25 pages, 11 figures

Published

2019

11. Pion Interactions and the Standard Model at High Precision

Author

Ananthanarayan, B., Ghosh, Shayan, Ananthanarayan, B., and Ghosh, Shayan

Abstract

Pions were predicted by H. Yukawa as force carriers of the inter-nucleon forces, and were detected in 1947. Today they are known to be bound states of quarks and anti-quarks of the two lightest flavours. They satisfy Bose statistics, and are the lightest particles of the strong interaction spectrum. Determination of the parameters of the Standard Model, including the masses of the lightest quarks, has only recently reached high precision on the lattice. Pions are also known to be pseudo-Goldstone bosons of spontaneously broken approximate axial-vector symmetries, and a probe of their properties and interactions at high precision tests our knowledge of the strong interactions. While also being a probe of the solution of the strong interactions on the computer, which is known as lattice gauge theory. Despite their long history, there are significant experimental and theoretical challenges in determining their properties at high precision. Examples include the lifetime of the neutral pion, and the status of their masses and decay widths in effective field theories. Pion-pion scattering has been studied for several decades using general methods of field theory such as dispersion relations based on analyticity, unitarity and crossing. Knowledge from these theoretical methods are used to confront high precision experimental data, and to analyze them to extract information on their scattering and phase shift parameters. This knowledge is crucial for estimating the Standard Model contributions to the anomalous magnetic moment of the muon, which is being probed at Fermilab in ongoing experiments. Other sensitive tests include the rare decay of the eta meson into three pions, which represents an isospin violating decay. The present article briefly reviews these important developments., Comment: 18 pages, latex, article prepared for publication in Physics News, Quarterly Publication of the Indian Physics Association, to mark the 125th birth anniversary of S. N. Bose; draws from our prior articles arXiv:physics/0703141, arXiv:1004.4257 [hep-ph], arXiv:1202.5391 [hep-ph], arXiv:1810.09265 [hep-ph] amongst others

Published

2018

12. Analytic representations of $m_K$, $F_K$, $m_\eta$ and $F_\eta$ in two loop $SU(3)$ chiral perturbation theory

Author

Ananthanarayan, B., Bijnens, Johan, Friot, Samuel, Ghosh, Shayan, Ananthanarayan, B., Bijnens, Johan, Friot, Samuel, and Ghosh, Shayan

Abstract

In this work, we consider expressions for the masses and decay constants of the pseudoscalar mesons in $SU(3)$ chiral perturbation theory. These involve sunset diagrams and their derivatives evaluated at $p^2=m_P^2$ ($P=\pi, K, \eta$). Recalling that there are three mass scales in this theory, $m_\pi$, $m_K$ and $m_\eta$, there are instances when the finite part of the sunset diagrams do not admit an expression in terms of elementary functions, and have therefore been evaluated numerically in the past. In a recent publication, an expansion in the external momentum was performed to obtain approximate analytic expressions for $m_\pi$ and $F_\pi$, the pion mass and decay constant. We provide fully analytic exact expressions for $m_K$ and $m_\eta$, the kaon and eta masses, and $F_K$ and $F_\eta$, the kaon and eta decay constants. These expressions, calculated using Mellin-Barnes methods, are in the form of double series in terms of two mass ratios. A numerical analysis of the results to evaluate the relative size of contributions coming from loops, chiral logarithms as well as phenomenological low-energy constants is presented. We also present a set of approximate analytic expressions for $m_K$, $F_K$, $m_\eta$ and $F_\eta$ that facilitate comparisons with lattice results. Finally, we show how exact analytic expressions for $m_\pi$ and $F_\pi$ may be obtained, the latter having been used in conjunction with the results for $F_K$ to produce a recently published analytic representation of $F_K/F_\pi$., Comment: 50 pages, 4 figures; ancillary Mathematica file

Published

2018

13. Leading Logarithms of the Two Point Function in Massless O(N) and SU(N) Models to any Order from Analyticity and Unitarity

Author

Ananthanarayan, B., Ghosh, Shayan, Vladimirov, Alexey, Wyler, Daniel, Ananthanarayan, B., Ghosh, Shayan, Vladimirov, Alexey, and Wyler, Daniel

Abstract

Leading (large) logarithms in non-renormalizable theories have been investigated in the recent past. Besides some general considerations, explicit results for the expansion coefficients (in terms of leading logarithms) of partial wave amplitudes and of scalar and vector form factors have been given. Analyticity and unitarity constraints haven been used to obtain the expansion coefficients of partial waves in massless theories, yielding form factors and the scalar two-point function to five-loop order in the O(4)/O(3) model. Later, the all order solutions for the partial waves in any O(N+1)/O(N) model were found. Also, results up to four-loop order exist for massive theories. Here we extend the implications of analyticity and unitarity constraints on the leading logarithms to arbitrary loop order in massless theories. We explicitly obtain the scalar and vector form factors as well as to the scalar two-point function in any O(N) and SU(N) type models. We present relations between the expansion coefficients of these quantities and those of of the relevant partial waves. Our work offers a consistency check on the published results in the O(N) models for form factors, and new results for the scalar two-point function. For the SU(N) type models, we use the known expansion coefficients for partial waves to obtain those for scalar and vector form factors as well as for the scalar two-point function. Our results for the form factor offer a check for the known and future results for massive O(N) and SU(N) type models when the massless limit is taken. Mathematica notebooks which can be used to calculate the expansion coefficients are provided as ancillary files., Comment: 10 pages; 2 ancillary Mathematica files

Published

2018

14. An Analytic Analysis of the Pion Decay Constant in Three-Flavoured Chiral Perturbation Theory

Author

Ananthanarayan, B., Bijnens, Johan, Ghosh, Shayan, Ananthanarayan, B., Bijnens, Johan, and Ghosh, Shayan

Abstract

A representation of the two-loop contribution to the pion decay constant in $SU(3)$ chiral perturbation theory is presented. The result is analytic upto the contribution of the three (different) mass sunset integrals, for which an expansion in their external momentum has been taken. We also give an analytic expression for the two-loop contribution to the pion mass based on a renormalized representation and in terms of the physical eta mass. We find an expansion of $F_{\pi}$ and $M_{\pi}^2$ in the strange quark mass in the isospin limit, and perform the matching of the chiral SU(2) and SU(3) low energy constants. A numerical analysis demonstrates the high accuracy of our representation, and the strong dependence of the pion decay constant upon the values of the low energy constants, especially in the chiral limit. Finally, we present a simplified representation that is particularly suitable for fitting with available lattice data., Comment: 34 pages, plain latex, 5 figures; v2 is the version that was published, with further corrections in Eqs. (84) [normalization],(87) and (91) [missing lines inserted] of the published version. Compared to v1, minor changes to the text and typos removed, the notation updated in section 5, new section 7 on lattice fits

Published

2017

15. Analytic representation of $F_K/F_\pi$ in two loop chiral perturbation theory

Author

Ananthanarayan, B., Bijnens, Johan, Friot, Samuel, Ghosh, Shayan, Ananthanarayan, B., Bijnens, Johan, Friot, Samuel, and Ghosh, Shayan

Abstract

We present an analytic representation of $F_K/F_\pi$ as calculated in three-flavour two-loop chiral perturbation theory, which involves expressing three mass scale sunsets in terms of Kamp\'e de F\'eriet series. We demonstrate how approximations may be made to obtain relatively compact analytic representations. An illustrative set of fits using lattice data is also presented, which shows good agreement with existing fits., Comment: v.2, version accepted for publication in Physical Review D as Rapid Communication; 8 pages, 5 figures; figure 1 replaced, full results for sunsets included, updated lattice fitting section, references added, clarifications introduced

Published

2017

16. An Analytic Analysis of the Pion Decay Constant in Three-Flavoured Chiral Perturbation Theory

Author

Ananthanarayan, B., Bijnens, Johan, Ghosh, Shayan, Ananthanarayan, B., Bijnens, Johan, and Ghosh, Shayan

Abstract

A representation of the two-loop contribution to the pion decay constant in $SU(3)$ chiral perturbation theory is presented. The result is analytic upto the contribution of the three (different) mass sunset integrals, for which an expansion in their external momentum has been taken. We also give an analytic expression for the two-loop contribution to the pion mass based on a renormalized representation and in terms of the physical eta mass. We find an expansion of $F_{\pi}$ and $M_{\pi}^2$ in the strange quark mass in the isospin limit, and perform the matching of the chiral SU(2) and SU(3) low energy constants. A numerical analysis demonstrates the high accuracy of our representation, and the strong dependence of the pion decay constant upon the values of the low energy constants, especially in the chiral limit. Finally, we present a simplified representation that is particularly suitable for fitting with available lattice data., Comment: 34 pages, plain latex, 5 figures; v2 is the version that was published, with further corrections in Eqs. (84) [normalization],(87) and (91) [missing lines inserted] of the published version. Compared to v1, minor changes to the text and typos removed, the notation updated in section 5, new section 7 on lattice fits

Published

2017

17. An Analytic Analysis of the Pion Decay Constant in Three-Flavoured Chiral Perturbation Theory

Author

Ananthanarayan, B., Bijnens, Johan, Ghosh, Shayan, Ananthanarayan, B., Bijnens, Johan, and Ghosh, Shayan

Abstract

A representation of the two-loop contribution to the pion decay constant in $SU(3)$ chiral perturbation theory is presented. The result is analytic upto the contribution of the three (different) mass sunset integrals, for which an expansion in their external momentum has been taken. We also give an analytic expression for the two-loop contribution to the pion mass based on a renormalized representation and in terms of the physical eta mass. We find an expansion of $F_{\pi}$ and $M_{\pi}^2$ in the strange quark mass in the isospin limit, and perform the matching of the chiral SU(2) and SU(3) low energy constants. A numerical analysis demonstrates the high accuracy of our representation, and the strong dependence of the pion decay constant upon the values of the low energy constants, especially in the chiral limit. Finally, we present a simplified representation that is particularly suitable for fitting with available lattice data., Comment: 34 pages, plain latex, 5 figures; v2 is the version that was published, with further corrections in Eqs. (84) [normalization],(87) and (91) [missing lines inserted] of the published version. Compared to v1, minor changes to the text and typos removed, the notation updated in section 5, new section 7 on lattice fits

Published

2017

18. An Analytic Approach to Sunset Diagrams in Chiral Perturbation Theory: Theory and Practice

Author

Ananthanarayan, B., Bijnens, Johan, Ghosh, Shayan, Hebbar, Aditya, Ananthanarayan, B., Bijnens, Johan, Ghosh, Shayan, and Hebbar, Aditya

Abstract

We demonstrate the use of several code implementations of the Mellin-Barnes method available in the public domain to derive analytic expressions for the sunset diagrams that arise in the two-loop contribution to the pion mass and decay constant in three-flavoured chiral perturbation theory. We also provide results for all possible two-mass configurations of the sunset integral, and derive a new one-dimensional integral representation for the one mass sunset integral with arbitrary external momentum. Thoroughly annotated Mathematica notebooks are provided as ancillary files, which may serve as pedagogical supplements to the methods described in this paper., Comment: 30 pages, plain latex, 3 figures; 7 mathematica notebooks provided as ancillary files; v2 is the version accepted and published in the European Physical Journal A in the Tools for Experiment and Theory Section; minor typos corrected; notation improved; bibliography extended; mathematica files submitted with this version are also supported on the journal web-site as supplementary materials

Published

2016

19. An Analytic Approach to Sunset Diagrams in Chiral Perturbation Theory: Theory and Practice

Author

Ananthanarayan, B., Bijnens, Johan, Ghosh, Shayan, Hebbar, Aditya, Ananthanarayan, B., Bijnens, Johan, Ghosh, Shayan, and Hebbar, Aditya

Abstract

We demonstrate the use of several code implementations of the Mellin-Barnes method available in the public domain to derive analytic expressions for the sunset diagrams that arise in the two-loop contribution to the pion mass and decay constant in three-flavoured chiral perturbation theory. We also provide results for all possible two-mass configurations of the sunset integral, and derive a new one-dimensional integral representation for the one mass sunset integral with arbitrary external momentum. Thoroughly annotated Mathematica notebooks are provided as ancillary files, which may serve as pedagogical supplements to the methods described in this paper., Comment: 30 pages, plain latex, 3 figures; 7 mathematica notebooks provided as ancillary files; v2 is the version accepted and published in the European Physical Journal A in the Tools for Experiment and Theory Section; minor typos corrected; notation improved; bibliography extended; mathematica files submitted with this version are also supported on the journal web-site as supplementary materials

Published

2016

20. An Analytic Approach to Sunset Diagrams in Chiral Perturbation Theory: Theory and Practice

Author

Ananthanarayan, B., Bijnens, Johan, Ghosh, Shayan, Hebbar, Aditya, Ananthanarayan, B., Bijnens, Johan, Ghosh, Shayan, and Hebbar, Aditya

Abstract

We demonstrate the use of several code implementations of the Mellin-Barnes method available in the public domain to derive analytic expressions for the sunset diagrams that arise in the two-loop contribution to the pion mass and decay constant in three-flavoured chiral perturbation theory. We also provide results for all possible two-mass configurations of the sunset integral, and derive a new one-dimensional integral representation for the one mass sunset integral with arbitrary external momentum. Thoroughly annotated Mathematica notebooks are provided as ancillary files, which may serve as pedagogical supplements to the methods described in this paper., Comment: 30 pages, plain latex, 3 figures; 7 mathematica notebooks provided as ancillary files; v2 is the version accepted and published in the European Physical Journal A in the Tools for Experiment and Theory Section; minor typos corrected; notation improved; bibliography extended; mathematica files submitted with this version are also supported on the journal web-site as supplementary materials

Published

2016

21. An Analytic Approach to Sunset Diagrams in Chiral Perturbation Theory: Theory and Practice

Author

Ananthanarayan, B., Bijnens, Johan, Ghosh, Shayan, Hebbar, Aditya, Ananthanarayan, B., Bijnens, Johan, Ghosh, Shayan, and Hebbar, Aditya

Abstract

We demonstrate the use of several code implementations of the Mellin-Barnes method available in the public domain to derive analytic expressions for the sunset diagrams that arise in the two-loop contribution to the pion mass and decay constant in three-flavoured chiral perturbation theory. We also provide results for all possible two-mass configurations of the sunset integral, and derive a new one-dimensional integral representation for the one mass sunset integral with arbitrary external momentum. Thoroughly annotated Mathematica notebooks are provided as ancillary files, which may serve as pedagogical supplements to the methods described in this paper., Comment: 30 pages, plain latex, 3 figures; 7 mathematica notebooks provided as ancillary files; v2 is the version accepted and published in the European Physical Journal A in the Tools for Experiment and Theory Section; minor typos corrected; notation improved; bibliography extended; mathematica files submitted with this version are also supported on the journal web-site as supplementary materials

Published

2016