Your search keyword '"Torres Bobadilla W. J."' showing total 14 results

1. On μe-scattering at NNLO in QED

Author

Mastrolia P., Passera M., Primo A., Schubert U., and Torres Bobadilla W. J.

Subjects

Physics, QC1-999

Abstract

We report on the current status of the analytic evaluation of the two-loop corrections to the μescattering in Quantum Electrodynamics, presenting state-of-the art techniques which have been developed to address this challenging task.

Published

2018

2. Muon-electron scattering at NNLO

Author

Broggio, A., Engel, T., Ferroglia, A., Mandal, M. K., Mastrolia, P., Rocco, M., Ronca, J., Signer, A., Torres Bobadilla, W. J., Ulrich, Y., and Zoller, M.

Published

2023

3. May the four be with you: novel IR-subtraction methods to tackle NNLO calculations

Author

Torres Bobadilla, W. J., Sborlini, G. F. R., Banerjee, P., Catani, S., Cherchiglia, A. L., Cieri, L., Dhani, P. K., Driencourt-Mangin, F., Engel, T., Ferrera, G., Gnendiger, C., Hernández-Pinto, R. J., Hiller, B., Pelliccioli, G., Pires, J., Pittau, R., Rocco, M., Rodrigo, G., Sampaio, M., Signer, A., Signorile-Signorile, C., Stöckinger, D., Tramontano, F., and Ulrich, Y.

Published

2021

4. Theory for muon-electron scattering @ 10 ppm: A report of the MUonE theory initiative

Author

Banerjee, P., Carloni Calame, C. M., Chiesa, M., Di Vita, S., Engel, T., Fael, M., Laporta, S., Mastrolia, P., Montagna, G., Nicrosini, O., Ossola, G., Passera, M., Piccinini, F., Primo, A., Ronca, J., Signer, A., Torres Bobadilla, W. J., Trentadue, L., Ulrich, Y., and Venanzoni, G.

Published

2020

5. Muon-electron scattering at NNLO

Author

Broggio, A, Engel, T; https://orcid.org/0000-0003-2794-9032, Ferroglia, A, Mandal, M K; https://orcid.org/0000-0003-0850-7685, Mastrolia, P; https://orcid.org/0000-0001-9711-7798, Rocco, M; https://orcid.org/0000-0002-2561-1209, Ronca, J; https://orcid.org/0000-0001-9968-311X, Signer, A; https://orcid.org/0000-0001-8488-7400, Torres Bobadilla, W J; https://orcid.org/0000-0001-6797-7607, Ulrich, Y, Zoller, M, Broggio, A, Engel, T; https://orcid.org/0000-0003-2794-9032, Ferroglia, A, Mandal, M K; https://orcid.org/0000-0003-0850-7685, Mastrolia, P; https://orcid.org/0000-0001-9711-7798, Rocco, M; https://orcid.org/0000-0002-2561-1209, Ronca, J; https://orcid.org/0000-0001-9968-311X, Signer, A; https://orcid.org/0000-0001-8488-7400, Torres Bobadilla, W J; https://orcid.org/0000-0001-6797-7607, Ulrich, Y, and Zoller, M

Abstract

We present the first calculation of the complete set of NNLO QED corrections for muon-electron scattering. This includes leptonic, non-perturbative hadronic, and photonic contributions. All fermionic corrections as well as the photonic subset that only corrects the electron or the muon line are included with full mass dependence. The genuine four-point two-loop topologies are computed as an expansion in the small electron mass, taking into account both, logarithmically enhanced as well as constant mass effects using massification. A fast and stable implementation of the numerically delicate real-virtual contribution is achieved by combining OpenLoops with next-to-soft stabilisation. All matrix elements are implemented in the McMule framework, which allows for the fully-differential calculation of any infrared-safe observable. This calculation is to be viewed in the context of the MUonE experiment requiring a background prediction at the level of 10 ppm. Our results thus represent a major milestone towards this ambitious precision goal.

Published

2023

6. Mini-Proceedings of the STRONG2020 Virtual Workshop on 'Space-like and Time-like determination of the Hadronic Leading Order contribution to the Muon $g-2$'

Author

Abbiendi, G., Andrej Arbuzov, Banerjee, Sw, Biswas, D., Budassi, E., Colangelo, G., Czyż, H., Davier, M., Denig, A., Driutti, A., Engel, T., Gagliardi, G., Hoferichter, M., Ignatov, F., Jadach, S., Komijani, J., Kupść, A., Laporta, S., Lusiani, A., Malaescu, B., Mandal, M. K., Marconi, U., Marinković, M. K., Mattiazzi, L., Müller, S. E., Nesterenko, A. V., Passera, M., Przedzinski, T., Ronca, J., Teubner, T., Torres bobadilla, W. J., Venanzoni, G., Was, Z., Zhou, X., and HEP, INSPIRE

Subjects

muon: magnetic moment, [PHYS.HEXP] Physics [physics]/High Energy Physics - Experiment [hep-ex], higher-order: 0, precision measurement, FOS: Physical sciences, electron positron: annihilation, High Energy Physics - Experiment, electron muon: elastic scattering, [PHYS.HPHE] Physics [physics]/High Energy Physics - Phenomenology [hep-ph], High Energy Physics - Experiment (hep-ex), High Energy Physics - Phenomenology, High Energy Physics - Phenomenology (hep-ph), cross section: hadronic, radiative correction, data management, Monte Carlo, energy: low

Abstract

The mini-proceedings of the STRONG2020 Virtual Workshop "Space-like and Time-like determination of the Hadronic Leading Order contribution to the Muon $g-2$", November 24--26 2021, are presented. This is the first workshop of the STRONG2020 WP21: JRA3-PrecisionSM: Precision Tests of the Standard Model (http://www.strong-2020.eu/joint-research-activity/jra3-precisionsm.html). The workshop was devoted to review of the working group activitity on: $(\it i)$ Radiative Corrections and Monte Carlo tools for low-energy hadronic cross sections in $e^+ e^-$ collisions; $(\it ii)$ Annotated database for $e^+e^-$ into hadrons processes at low energy; $(\it iii)$ Radiative Corrections and Monte Carlo tools for $\mu$-$e$ elastic scattering., Comment: 43 pages, 21 contributions. Editors: A. Kup\'s\'c and G. Venanzoni

Published

2022

7. On the four-dimensional formulation of dimensionally regulated amplitudes

Author

Fazio, A. R., Mastrolia, P., Mirabella, E., and Torres Bobadilla, W. J.

Published

2014

8. Two-Loop Four-Fermion Scattering Amplitude in QED

Author

Bonciani, R., primary, Broggio, A., additional, Di Vita, S., additional, Ferroglia, A., additional, Mandal, M. K., additional, Mastrolia, P., additional, Mattiazzi, L., additional, Primo, A., additional, Ronca, J., additional, Schubert, U., additional, Torres Bobadilla, W. J., additional, and Tramontano, F., additional

Published

2022

9. Interplay between the loop-tree duality and helicity amplitudes

Author

Driencourt-Mangin, F., primary, Rodrigo, G., additional, Sborlini, G. F. R., additional, and Torres Bobadilla, W. J., additional

Published

2022

10. May the four be with you: novel IR-subtraction methods to tackle NNLO calculations

Author

Torres Bobadilla, W, Sborlini, G, Banerjee, P, Catani, S, Cherchiglia, A, Cieri, L, Dhani, P, Driencourt-Mangin, F, Engel, T, Ferrera, G, Gnendiger, C, Hernandez-Pinto, R, Hiller, B, Pelliccioli, G, Pires, J, Pittau, R, Rocco, M, Rodrigo, G, Sampaio, M, Signer, A, Signorile-Signorile, C, Stockinger, D, Tramontano, F, Ulrich, Y, Torres Bobadilla W. J., Sborlini G. F. R., Banerjee P., Catani S., Cherchiglia A. L., Cieri L., Dhani P. K., Driencourt-Mangin F., Engel T., Ferrera G., Gnendiger C., Hernandez-Pinto R. J., Hiller B., Pelliccioli G., Pires J., Pittau R., Rocco M., Rodrigo G., Sampaio M., Signer A., Signorile-Signorile C., Stockinger D., Tramontano F., Ulrich Y., Torres Bobadilla, W, Sborlini, G, Banerjee, P, Catani, S, Cherchiglia, A, Cieri, L, Dhani, P, Driencourt-Mangin, F, Engel, T, Ferrera, G, Gnendiger, C, Hernandez-Pinto, R, Hiller, B, Pelliccioli, G, Pires, J, Pittau, R, Rocco, M, Rodrigo, G, Sampaio, M, Signer, A, Signorile-Signorile, C, Stockinger, D, Tramontano, F, Ulrich, Y, Torres Bobadilla W. J., Sborlini G. F. R., Banerjee P., Catani S., Cherchiglia A. L., Cieri L., Dhani P. K., Driencourt-Mangin F., Engel T., Ferrera G., Gnendiger C., Hernandez-Pinto R. J., Hiller B., Pelliccioli G., Pires J., Pittau R., Rocco M., Rodrigo G., Sampaio M., Signer A., Signorile-Signorile C., Stockinger D., Tramontano F., and Ulrich Y.

Abstract

In this manuscript, we report the outcome of the topical workshop: paving the way to alternative NNLO strategies (https://indico.ific.uv.es/e/WorkStop-ThinkStart_3.0), by presenting a discussion about different frameworks to perform precise higher-order computations for high-energy physics. These approaches implement novel strategies to deal with infrared and ultraviolet singularities in quantum field theories. A special emphasis is devoted to the local cancellation of these singularities, which can enhance the efficiency of computations and lead to discover novel mathematical properties in quantum field theories.

Published

2021

11. May the four be with you: novel IR-subtraction methods to tackle NNLO calculations

Author

Torres Bobadilla, W J; https://orcid.org/0000-0001-6797-7607, Sborlini, G F R, Banerjee, P, Catani, S, Cherchiglia, A L, Cieri, L, Dhani, P K, Driencourt-Mangin, F, Engel, T, Ferrera, G, Gnendiger, C, Hernández-Pinto, R J, Hiller, B, Pelliccioli, G, Pires, J, Pittau, R, Rocco, M, Rodrigo, G, Sampaio, M, Signer, A, Signorile-Signorile, C, Stöckinger, D, Tramontano, F, Ulrich, Y, Torres Bobadilla, W J; https://orcid.org/0000-0001-6797-7607, Sborlini, G F R, Banerjee, P, Catani, S, Cherchiglia, A L, Cieri, L, Dhani, P K, Driencourt-Mangin, F, Engel, T, Ferrera, G, Gnendiger, C, Hernández-Pinto, R J, Hiller, B, Pelliccioli, G, Pires, J, Pittau, R, Rocco, M, Rodrigo, G, Sampaio, M, Signer, A, Signorile-Signorile, C, Stöckinger, D, Tramontano, F, and Ulrich, Y

Abstract

In this manuscript, we report the outcome of the topical workshop: paving the way to alternative NNLO strategies (https://indico.ific.uv.es/e/WorkStop-ThinkStart_3.0), by presenting a discussion about different frameworks to perform precise higher-order computations for high-energy physics. These approaches implement novel strategies to deal with infrared and ultraviolet singularities in quantum field theories. A special emphasis is devoted to the local cancellation of these singularities, which can enhance the efficiency of computations and lead to discover novel mathematical properties in quantum field theories.

Published

2021

12. May the four be with you: Novel IR-subtraction methods to tackle NNLO calculations

Author

Torres Bobadilla, W. J., Sborlini, G. F. R., Banerjee, P., Catani, S., Cherchiglia, A. L., Cieri, L., Dhani, P. K., Driencourt-Mangin, F., Engel, T., Ferrera, G., Gnendiger, C., Hernández-Pinto, R. J., Hiller, B., Pelliccioli, G., Pires, J., Pittau, R., Rocco, M., Rodrigo, G., Sampaio, M., Signer, A., Signorile-Signorile, C., Stöckinger, D., Tramontano, F., and Ulrich, Y.

Subjects

energy: high, precision measurement, higher-order, efficiency, infrared, local, 1. No poverty, mathematical methods, field theory, singularity: ultraviolet

Abstract

The European physical journal / C 81(3), 250 (2021). doi:10.1140/epjc/s10052-021-08996-y, In this manuscript, we report the outcome of the topical workshop: paving the way to alternative NNLO strategies (https://indico.ific.uv.es/e/WorkStop-ThinkStart_3.0), by presenting a discussion about different frameworks to perform precise higher-order computations for high-energy physics. These approaches implement novel strategies to deal with infrared and ultraviolet singularities in quantum field theories. A special emphasis is devoted to the local cancellation of these singularities, which can enhance the efficiency of computations and lead to discover novel mathematical properties in quantum field theories., Published by Springer, Heidelberg

13. Two-Loop Four-Fermion Scattering Amplitude in QED

Author

Bonciani, Roberto, Broggio, Alessandro, Di Vita, Stefano, Ferroglia, Andrea, Mandal, Manoj K, Mastrolia, Pierpaolo, Mattiazzi, L, Primo, Amedeo, Ronca, Jonathan, Schubert, U, Torres Bobadilla, William J, Tramontano, Francesco, University of Zurich, Bonciani, R, Broggio, A, Di Vita, S, Ferroglia, A, Mandal, M, Mastrolia, P, Mattiazzi, L, Primo, A, Ronca, J, Schubert, U, Torres Bobadilla, W, Tramontano, F, Bonciani, R., Broggio, A., Di Vita, S., Ferroglia, A., Mandal, M. K., Mastrolia, P., Mattiazzi, L., Primo, A., Ronca, J., Schubert, U., Torres Bobadilla, W. J., and Tramontano, F.

Subjects

High Energy Physics - Theory, 010308 nuclear & particles physics, 530 Physics, General Physics and Astronomy, FOS: Physical sciences, 10192 Physics Institute, QED, NNLO calculation, 01 natural sciences, 3100 General Physics and Astronomy, High Energy Physics - Phenomenology, High Energy Physics - Phenomenology (hep-ph), High Energy Physics - Theory (hep-th), 0103 physical sciences, 010306 general physics

Abstract

We present the analytic evaluation of the two-loop corrections to the amplitude for the scattering of four fermions in Quantum Electrodynamics, $f^- + f^+ + F^- + F^+ \to 0$, with $f$ and $F$ representing a massless and a massive lepton, respectively. Dimensional regularization is employed to evaluate the loop integrals. Ultraviolet divergences are removed by renormalizing the coupling constant in the ${\overline{\text{MS}}}$-scheme, and the lepton mass as well as the external fields in the on-shell scheme. The analytic result for the renormalized amplitude is expressed as Laurent series around $d=4$ space-time dimensions, and contains Generalized Polylogarithms with up to weight four. The structure of the residual infrared divergences of the virtual amplitude is in agreement with the prediction of the Soft Collinear Effective Theory. Our analytic results are an essential ingredient for the computation of the scattering cross section for massive fermion-pair production in massless fermion-pair annihilation, i.e. $f^- f^+ \to F^- F^+$, and crossing related processes such as the elastic scattering $f F \to f F$, with up to Next-to-Next to Leading Order accuracy., Comment: 5 pages, 2 figures, 1 table + supplemental material. v2: references added; plots added; Table 1: finite part of A(2) fixed; matches published version

Published

2022

14. A stroll through the loop-tree duality

Author

Francesco Tramontano, German F. R. Sborlini, Renato Maria Prisco, Norma Selomit Ramírez-Uribe, A. E. Rentería-Olivo, Judith Plenter, William J. Torres Bobadilla, Roger J. Hernández-Pinto, J. J. Aguilera-Verdugo, German Rodrigo, Félix Driencourt-Mangin, Aguilera-Verdugo, J. J., Driencourt-Mangin, F., Hernandez-Pinto, R. J., Plenter, J., Prisco, R. M., Ramirez-Uribe, N. S., Renteria-Olivo, A. E., Rodrigo, G., Sborlini, G., Torres Bobadilla, W. J., and Tramontano, F.

Subjects

High Energy Physics - Theory, duality: local, causality, Physics and Astronomy (miscellaneous), Feynman graph, General Mathematics, Multi-loop calculation, Duality (optimization), FOS: Physical sciences, 01 natural sciences, Euclidean [space], space: Euclidean, Tree (descriptive set theory), Theoretical physics, High Energy Physics - Phenomenology (hep-ph), local [duality], ddc:570, 0103 physical sciences, Computer Science (miscellaneous), QA1-939, 010306 general physics, Representation (mathematics), Higher order, Mathematics, perturbative QFT, Feynman integral, 010308 nuclear & particles physics, Euclidean space, multi-loop calculations, scattering amplitude, Dual (category theory), Loop (topology), Scattering amplitude, High Energy Physics - Phenomenology, higher orders, infrared [singularity], High Energy Physics - Theory (hep-th), Chemistry (miscellaneous), Feynman integrals, Gravitational singularity, singularity: infrared

Abstract

The Loop-Tree Duality (LTD) theorem is an innovative technique to deal with multi-loop scattering amplitudes, leading to integrand-level representations over an Euclidean space. In this article, we review the last developments concerning this framework, focusing on the manifestly causal representation of multi-loop Feynman integrals and scattering amplitudes, and the definition of dual local counter-terms to cancel infrared singularities., Comment: 45 pages, 20 figures. Contribution to the special issue of Symmetry on "Higher Order Radiative Corrections in QCD"

Published

2021