High-precision computations on fine lattices

MSCA (Marie Skłodowska-Curie)HORIZON-TMA-MSCA-PF-EFID: 101106243
EC Contribution
€2,108
Consortium Size
1 orgs
Start Year
2023
Summary

Lattice Quantum Chromodynamics (LQCD) is the only known ab-initio approach to compute observables in the non-perturbative regime of the strong interactions of particles and fields. The theory of strong interactions is solved numerically in finite volumes on an Euclidean space-time grid. The framework of LQCD has systematically improvable statistic and systematic uncertainties. It provides highly relevant theoretical input for high-energy and nuclear physics. The precision of LQCD computations has significantly improved in the last years thanks to algorithmic advancements.This project aims to further improve the precision of phenomenologically important observables. The improvement will be achieved by the development and application of noise reduction techniques to reduce statistical uncertainties at computationally challenging, very fine resolutions of LQCD simulations.The focus of this project will be on the improved determination of the hadronic vacuum polarization contribution to the anomalous magnetic moment of the muon. Precise theoretical predictions of this observable are of utmost importance in the search for physics beyond the Standard Model of particles as the uncertainties of the experimental results will significantly decrease in the upcoming years. The computation of the hadronic vacuum polarization in the framework of LQCD suffers from an exponentially enhanced increase of the noise-to-signal ratio in the low energy region. Furthermore, the precision of state-of-the-art determinations is bounded by systematic uncertainties due to the presence of the finite grid. Both uncertainties will be addressed and reduced in this work.Furthermore, the approach will be tested in the computation of B-physics observables that are needed to investigate currently observed anomalies in the heavy quark flavor sector of the Standard Model.

Consortium (1)

Project Results (15)

Source: CORDIS, the EU research results database.

Publications (12)
Machine-learning techniques as noise reduction strategies in lattice calculations of the muon $g-2$
Proceedings of The 41st International Symposium on Lattice Field Theory — PoS(LATTICE2024)· 2025DOI
Hartmut Wittig, Thomas Blum, Alessandro Conigli, Lukas Geyer, Simon Kuberski, Alexander Segner
The anomalous magnetic moment of the muon in the Standard Model: an update
Physics Reports· 2025DOI
R. Aliberti, T. Aoyama, E. Balzani, A. Bashir, G. Benton, J. Bijnens, V. Biloshytskyi, T. Blum, D. Boito, M. Bruno, E. Budassi, S. Burri, L. Cappiello, C.M. Carloni Calame, M. Cè, V. Cirigliano, D.A. Clarke, G. Colangelo, L. Cotrozzi, M. Cottini, I. Danilkin, M. Davier, M. Della Morte, A. Denig, C. DeTar, V. Druzhinin, G. Eichmann, A.X. El-Khadra, E. Estrada, X. Feng, C.S. Fischer, R. Frezzotti, G. Gagliardi, A. Gérardin, M. Ghilardi, D. Giusti, M. Golterman, S. Gonzàlez-Solís, S. Gottlieb, R. Gruber, A. Guevara, V. Gülpers, A. Gurgone, F. Hagelstein, M. Hayakawa, N. Hermansson-Truedsson, A. Hoecker, M. Hoferichter, B.-L. Hoid, S. Holz, R.J. Hudspith, F. Ignatov, L. Jin, N. Kalntis, G. Kanwar, A. Keshavarzi, J. Komijani, J. Koponen, S. Kuberski, B. Kubis, A. Kupich, A. Kupść, S. Lahert, S. Laporta, C. Lehner, M. Lellmann, L. Lellouch, T. Leplumey, J. Leutgeb, T. Lin, Q. Liu, I. Logashenko, C.Y. London, G. López Castro, J. Lüdtke, A. Lusiani, A. Lutz, J. Mager, B. Malaescu, K. Maltman, M.K. Marinković, J. Márquez, P. Masjuan, H.B. Meyer, T. Mibe, N. Miller, A. Miramontes, A. Miranda, G. Montagna, S.E. Müller, E.T. Neil, A.V. Nesterenko, O. Nicrosini, M. Nio, D. Nomura, J. Paltrinieri, L. Parato, J. Parrino, V. Pascalutsa, M. Passera, S. Peris, P. Petit Rosàs, F. Piccinini, R.N. Pilato, L. Polat, A. Portelli, D. Portillo-Sánchez, M. Procura, L. Punzi, K. Raya, A. Rebhan, C.F. Redmer, B.L. Roberts, A. Rodríguez-Sánchez, P. Roig, J. Ruiz de Elvira, P. Sánchez-Puertas, A. Signer, J.W. Sitison, D. Stamen, D. Stöckinger, H. Stöckinger-Kim, P. Stoffer, Y. Sue, P. Tavella, T. Teubner, J.-N. Toelstede, G. Toledo, W.J. Torres Bobadilla, J.T. Tsang, F.P. Ucci, Y. Ulrich, R.S. Van de Water, G. Venanzoni, S. Volkov, G. von Hippel, G. Wang, U. Wenger, H. Wittig, A. Wright, E. Zaid, M. Zanke, Z. Zhang, M. Zillinger, C. Alexandrou, A. Altherr, M. Anderson, C. Aubin, S. Bacchio, P. Beltrame, A. Beltran, P. Boyle, I. Campos Plasencia, I. Caprini, B. Chakraborty, G. Chanturia, A. Crivellin, A. Czarnecki, L.- Y. Dai, T. Dave, L. Del Debbio, K. Demory, D. Djukanovic, T. Draper, A. Driutti, M. Endo, F. Erben, K. Ferraby, J. Finkenrath, L. Flower, A. Francis, E. Gámiz, J. Gogniat, A.V. Grebe, S. Gündogdu, M.T. Hansen, S. Hashimoto, H. Hayashii, D.W. Hertzog, L.A. Heuser, L. Hostetler, X.T. Hou, G.S. Huang, T. Iijima, K. Inami, A. Jüttner, R. Kitano, M. Knecht, S. Kollatzsch, A.S. Kronfeld, T. Lenz, G. Levati, Q.M. Li, Y.P. Liao, J. Libby, K.F. Liu, V. Lubicz, M.T. Lynch, A.T. Lytle, J.L. Ma, K. Miura, K. Möhling, J. Muskalla, F. Noël, K. Ottnad, P. Paradisi, C.T. Peterson, A. Pich, S. Pitelis, S. Plura, A. Price, D. Radic, A. Radzhabov, A. Risch, S. Romiti, S. Sahoo, F. Sannino, H. Schäfer, Y. Schelhaas, S.I. Serednyakov, O. Shekhovtsova, J.N. Simone, S. Simula, E.P. Solodov, F.M. Stokes, M. Vanderhaeghen, A. Vaquero, N. Vestergaard, W.P. Wang, Z. Wa̧s, K. Yamashita, Y.B. Yang, T. Yoshioka, C.Z. Yuan, A.S. Zhevlakov
The hadronic contribution to the running of $\alpha$ and the electroweak mixing angle
Proceedings of The 41st International Symposium on Lattice Field Theory — PoS(LATTICE2024)· 2025DOI
Alessandro Conigli, Georg von Hippel, Simon Kuberski, Harvey B. Meyer, Konstantin Ottnad, Hartmut Wittig
The hadronic vacuum polarization contribution to the muon g − 2 at long distances
Journal of High Energy Physics· 2025DOI
Dalibor Djukanovic, Georg von Hippel, Simon Kuberski, Harvey B. Meyer, Nolan Miller, Konstantin Ottnad, Julian Parrino, Andreas Risch, Hartmut Wittig
Theory-Driven Evolution of the Weak Mixing Angle
Physical Review Letters· 2025DOI
Jens Erler, Rodolfo Ferro-Hernández, Simon Kuberski
$D$ and $D_s$ decay constants from $N_f = 2 + 1$ lattice QCD
Proceedings of European network for Particle physics, Lattice field theory and Extreme computing — PoS(EuroPLEx2023)· 2024DOI
Sara Collins, Jochen Heitger, Fabian Joswig, Simon Kuberski, Wolfgang Soeldner
A strategy for B-physics observables in the continuum limit
Proceedings of The 40th International Symposium on Lattice Field Theory — PoS(LATTICE2023)· 2024DOI
Rainer Sommer, Alessandro Conigli, Julien Frison, Patrick Fritzsch, Antoine Gérardin, Jochen Heitger, Gregorio Herdoiza, Simon Kuberski, Carlos Pena, Hubert Simma
B-physics observables in the continuum from a combination of static and relativistic results
Proceedings of European network for Particle physics, Lattice field theory and Extreme computing — PoS(EuroPLEx2023)· 2024DOI
Alessandro Conigli, Julien Frison, Patrick Fritzsch, Antoine Gérardin, Jochen Heitger, Gregorio Herdoiza, Simon Kuberski, Carlos Pena, Hubert Simma
Journal of High Energy Physics
Journal of High Energy Physics· 2024DOI
The RQCD collaboration and the ALPHA collaboration; Simon Kuberski; Fabian Joswig; Sara Collins; Jochen Heitger; Wolfgang Söldner
Journal of High Energy Physics
Journal of High Energy Physics· 2024DOI
Kuberski, Simon; Cè, Marco; von Hippel, Georg; Meyer, Harvey B.; Ottnad, Konstantin; Risch, Andreas; Wittig, Hartmut
Muon $g-2$: Lattice calculations of the hadronic vacuum polarization
Proceedings of The 40th International Symposium on Lattice Field Theory — PoS(LATTICE2023)· 2024DOI
Simon Kuberski
$m_b$ and $f_{B^{(*)}}$ in 2 + 1 flavour QCD from a combination of continuum limit static and relativistic results
Proceedings of The 40th International Symposium on Lattice Field Theory — PoS(LATTICE2023)· 2023DOI
Alessandro Conigli, Julien Frison, Patrick Fritzsch, Antoine Gérardin, Jochen Heitger, Gregorio Herdoiza, Simon Kuberski, Carlos Pena, Hubert Simma, Rainer Sommer
Deliverables (2)
Other Results (1)
Periodic Reporting for period 1 - HiCoLat (High-precision computations on fine lattices)