The strong coupling constant: state of the art and the decade ahead

D. d’Enterria; S. Kluth; G. Zanderighi; C. Ayala; M. A. Benitez-Rathgeb; J. Blümlein; D. Boito; N. Brambilla; D. Britzger; S. Camarda; A. M. Cooper-Sarkar; T. Cridge; G. Cvetič; D. d’Enterria; M. Dalla Brida; A. Deur; F. Giuli; M. Golterman; A. H. Hoang; J. Huston; M. Jamin; S. Kluth; A. V. Kotikov; V. G. Krivokhizhin; A. S. Kronfeld; V. Leino; K. Lipka; T. Mäkelä; B. Malaescu; K. Maltman; S. Marzani; V. Mateu; S. Moch; P. F. Monni; P. Nadolsky; P. Nason; A. V. Nesterenko; R. Pérez-Ramos; S. Peris; P. Petreczky; A. Pich; K. Rabbertz; A. Ramos; D. Reichelt; A. Rodriguez-Sánchez; J. Rojo; M. Saragnese; L. Sawyer; M. Schott; S. Schumann; B. G. Shaikhatdenov; S. Sint; G. Soyez; D. Teca; A. Vairo; M. Vos; C. Waits; J. H. Weber; M. Wobisch; K. Xie; G. Zanderighi

doi:10.1088/1361-6471/ad1a78

The strong coupling constant: state of the art and the decade ahead

D. d’Enterria
, S. Kluth
, G. Zanderighi
, C. Ayala
, M. A. Benitez-Rathgeb
, J. Blümlein
, D. Boito
, N. Brambilla
, D. Britzger
, S. Camarda
, A. M. Cooper-Sarkar
, T. Cridge
, G. Cvetič
, D. d’Enterria
, M. Dalla Brida
, A. Deur
, F. Giuli
, M. Golterman
, A. H. Hoang
, J. Huston

M. Jamin, S. Kluth, A. V. Kotikov, V. G. Krivokhizhin, A. S. Kronfeld, V. Leino, K. Lipka, T. Mäkelä, B. Malaescu, K. Maltman, S. Marzani, V. Mateu, S. Moch, P. F. Monni, P. Nadolsky, P. Nason, A. V. Nesterenko, R. Pérez-Ramos, S. Peris, P. Petreczky, A. Pich, K. Rabbertz, A. Ramos, D. Reichelt, A. Rodriguez-Sánchez, J. Rojo, M. Saragnese, L. Sawyer, M. Schott, S. Schumann, B. G. Shaikhatdenov, S. Sint, G. Soyez, D. Teca, A. Vairo, M. Vos, C. Waits, J. H. Weber, M. Wobisch, K. Xie, G. Zanderighi

European Organization for Nuclear Research
Max-Planck-Institut für Physik
Universidad de Tarapacá
Vienna-UNI
Deutsches Elektronen-Synchrotron (DESY)
University of São Paulo
University of Oxford
University College London
Universidad Técnica Federico Santa María
Thomas Jefferson National Accelerator Facility
San Francisco State University
Universitat Autònoma de Barcelona
University of Vienna
Michigan State University
Heidelberg University
Joint Inst. for Nuclear Research
Fermi National Accelerator Laboratory
Technische Universität München
Centre de Recherche Institut du Cerveau et de la Moelle
York University
University of Adelaide
University of Genova
Universidad de Salamanca
IFT-UAM/CSIC
Universität Hamburg
Southern Methodist University
Universit̀ Degli Studi di Milano-Bicocca
Bis
Brookhaven National Laboratory
University of Valencia
Humanoid Technologies Lab (H2T)
University of Durham
University Paris-Sud
VU University Amsterdam
Science Park 105
Louisiana Tech University
Johannes Gutenberg University
Georg August Universität Göttingen
Trinity College Dublin
Humboldt-Universität zu Berlin
University of Pittsburgh

Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung

15 Zitate (Scopus)

Abstract

Theoretical predictions for particle production cross sections and decays at colliders rely heavily on perturbative Quantum Chromodynamics (QCD) calculations, expressed as an expansion in powers of the strong coupling constant α _S. The current O ( 1 % ) uncertainty of the QCD coupling evaluated at the reference Z boson mass, α S ( m Z 2 ) = 0.1179 ± 0.0009 , is one of the limiting factors to more precisely describe multiple processes at current and future colliders. A reduction of this uncertainty is thus a prerequisite to perform precision tests of the Standard Model as well as searches for new physics. This report provides a comprehensive summary of the state-of-the-art, challenges, and prospects in the experimental and theoretical study of the strong coupling. The current α S ( m Z 2 ) world average is derived from a combination of seven categories of observables: (i) lattice QCD, (ii) hadronic τ decays, (iii) deep-inelastic scattering and parton distribution functions fits, (iv) electroweak boson decays, hadronic final-states in (v) e⁺e⁻, (vi) e-p, and (vii) p-p collisions, and (viii) quarkonia decays and masses. We review the current status of each of these seven α S ( m Z 2 ) extraction methods, discuss novel α _S determinations, and examine the averaging method used to obtain the world-average value. Each of the methods discussed provides a ‘wish list’ of experimental and theoretical developments required in order to achieve the goal of a per-mille precision on α S ( m Z 2 ) within the next decade.

Originalsprache	Englisch
Aufsatznummer	090501
Fachzeitschrift	Journal of Physics G: Nuclear and Particle Physics
Jahrgang	51
Ausgabenummer	9
DOIs	https://doi.org/10.1088/1361-6471/ad1a78
Publikationsstatus	Veröffentlicht - 1 Sept. 2024

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10.1088/1361-6471/ad1a78

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d’Enterria, D., Kluth, S., Zanderighi, G., Ayala, C., Benitez-Rathgeb, M. A., Blümlein, J., Boito, D., Brambilla, N., Britzger, D., Camarda, S., Cooper-Sarkar, A. M., Cridge, T., Cvetič, G., d’Enterria, D., Dalla Brida, M., Deur, A., Giuli, F., Golterman, M., Hoang, A. H., ... Zanderighi, G. (2024). The strong coupling constant: state of the art and the decade ahead. Journal of Physics G: Nuclear and Particle Physics, 51(9), Artikel 090501. https://doi.org/10.1088/1361-6471/ad1a78

@article{e4846aef627e46dc8119aa2a15319240,

title = "The strong coupling constant: state of the art and the decade ahead",

abstract = "Theoretical predictions for particle production cross sections and decays at colliders rely heavily on perturbative Quantum Chromodynamics (QCD) calculations, expressed as an expansion in powers of the strong coupling constant α S . The current O ( 1 \% ) uncertainty of the QCD coupling evaluated at the reference Z boson mass, α S ( m Z 2 ) = 0.1179 ± 0.0009 , is one of the limiting factors to more precisely describe multiple processes at current and future colliders. A reduction of this uncertainty is thus a prerequisite to perform precision tests of the Standard Model as well as searches for new physics. This report provides a comprehensive summary of the state-of-the-art, challenges, and prospects in the experimental and theoretical study of the strong coupling. The current α S ( m Z 2 ) world average is derived from a combination of seven categories of observables: (i) lattice QCD, (ii) hadronic τ decays, (iii) deep-inelastic scattering and parton distribution functions fits, (iv) electroweak boson decays, hadronic final-states in (v) e+e−, (vi) e-p, and (vii) p-p collisions, and (viii) quarkonia decays and masses. We review the current status of each of these seven α S ( m Z 2 ) extraction methods, discuss novel α S determinations, and examine the averaging method used to obtain the world-average value. Each of the methods discussed provides a {\textquoteleft}wish list{\textquoteright} of experimental and theoretical developments required in order to achieve the goal of a per-mille precision on α S ( m Z 2 ) within the next decade.",

keywords = "QCD, colliders, strong coupling",

author = "D. d{\textquoteright}Enterria and S. Kluth and G. Zanderighi and C. Ayala and Benitez-Rathgeb, \{M. A.\} and J. Bl{\"u}mlein and D. Boito and N. Brambilla and D. Britzger and S. Camarda and Cooper-Sarkar, \{A. M.\} and T. Cridge and G. Cveti{\v c} and D. d{\textquoteright}Enterria and \{Dalla Brida\}, M. and A. Deur and F. Giuli and M. Golterman and Hoang, \{A. H.\} and J. Huston and M. Jamin and S. Kluth and Kotikov, \{A. V.\} and Krivokhizhin, \{V. G.\} and Kronfeld, \{A. S.\} and V. Leino and K. Lipka and T. M{\"a}kel{\"a} and B. Malaescu and K. Maltman and S. Marzani and V. Mateu and S. Moch and Monni, \{P. F.\} and P. Nadolsky and P. Nason and Nesterenko, \{A. V.\} and R. P{\'e}rez-Ramos and S. Peris and P. Petreczky and A. Pich and K. Rabbertz and A. Ramos and D. Reichelt and A. Rodriguez-S{\'a}nchez and J. Rojo and M. Saragnese and L. Sawyer and M. Schott and S. Schumann and Shaikhatdenov, \{B. G.\} and S. Sint and G. Soyez and D. Teca and A. Vairo and M. Vos and C. Waits and Weber, \{J. H.\} and M. Wobisch and K. Xie and G. Zanderighi",

note = "Publisher Copyright: {\textcopyright} 2024 The Author(s). Published by IOP Publishing Ltd.",

year = "2024",

month = sep,

day = "1",

doi = "10.1088/1361-6471/ad1a78",

language = "English",

volume = "51",

journal = "Journal of Physics G: Nuclear and Particle Physics",

issn = "0954-3899",

publisher = "IOP Publishing Ltd.",

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d’Enterria, D, Kluth, S, Zanderighi, G, Ayala, C, Benitez-Rathgeb, MA, Blümlein, J, Boito, D, Brambilla, N, Britzger, D, Camarda, S, Cooper-Sarkar, AM, Cridge, T, Cvetič, G, d’Enterria, D, Dalla Brida, M, Deur, A, Giuli, F, Golterman, M, Hoang, AH, Huston, J, Jamin, M, Kluth, S, Kotikov, AV, Krivokhizhin, VG, Kronfeld, AS, Leino, V, Lipka, K, Mäkelä, T, Malaescu, B, Maltman, K, Marzani, S, Mateu, V, Moch, S, Monni, PF, Nadolsky, P, Nason, P, Nesterenko, AV, Pérez-Ramos, R, Peris, S, Petreczky, P, Pich, A, Rabbertz, K, Ramos, A, Reichelt, D, Rodriguez-Sánchez, A, Rojo, J, Saragnese, M, Sawyer, L, Schott, M, Schumann, S, Shaikhatdenov, BG, Sint, S, Soyez, G, Teca, D, Vairo, A, Vos, M, Waits, C, Weber, JH, Wobisch, M, Xie, K & Zanderighi, G 2024, 'The strong coupling constant: state of the art and the decade ahead', Journal of Physics G: Nuclear and Particle Physics, Jg. 51, Nr. 9, 090501. https://doi.org/10.1088/1361-6471/ad1a78

TY - JOUR

T1 - The strong coupling constant

T2 - state of the art and the decade ahead

AU - d’Enterria, D.

AU - Kluth, S.

AU - Zanderighi, G.

AU - Ayala, C.

AU - Benitez-Rathgeb, M. A.

AU - Blümlein, J.

AU - Boito, D.

AU - Brambilla, N.

AU - Britzger, D.

AU - Camarda, S.

AU - Cooper-Sarkar, A. M.

AU - Cridge, T.

AU - Cvetič, G.

AU - d’Enterria, D.

AU - Dalla Brida, M.

AU - Deur, A.

AU - Giuli, F.

AU - Golterman, M.

AU - Hoang, A. H.

AU - Huston, J.

AU - Jamin, M.

AU - Kluth, S.

AU - Kotikov, A. V.

AU - Krivokhizhin, V. G.

AU - Kronfeld, A. S.

AU - Leino, V.

AU - Lipka, K.

AU - Mäkelä, T.

AU - Malaescu, B.

AU - Maltman, K.

AU - Marzani, S.

AU - Mateu, V.

AU - Moch, S.

AU - Monni, P. F.

AU - Nadolsky, P.

AU - Nason, P.

AU - Nesterenko, A. V.

AU - Pérez-Ramos, R.

AU - Peris, S.

AU - Petreczky, P.

AU - Pich, A.

AU - Rabbertz, K.

AU - Ramos, A.

AU - Reichelt, D.

AU - Rodriguez-Sánchez, A.

AU - Rojo, J.

AU - Saragnese, M.

AU - Sawyer, L.

AU - Schott, M.

AU - Schumann, S.

AU - Shaikhatdenov, B. G.

AU - Sint, S.

AU - Soyez, G.

AU - Teca, D.

AU - Vairo, A.

AU - Vos, M.

AU - Waits, C.

AU - Weber, J. H.

AU - Wobisch, M.

AU - Xie, K.

AU - Zanderighi, G.

PY - 2024/9/1

Y1 - 2024/9/1

N2 - Theoretical predictions for particle production cross sections and decays at colliders rely heavily on perturbative Quantum Chromodynamics (QCD) calculations, expressed as an expansion in powers of the strong coupling constant α S . The current O ( 1 % ) uncertainty of the QCD coupling evaluated at the reference Z boson mass, α S ( m Z 2 ) = 0.1179 ± 0.0009 , is one of the limiting factors to more precisely describe multiple processes at current and future colliders. A reduction of this uncertainty is thus a prerequisite to perform precision tests of the Standard Model as well as searches for new physics. This report provides a comprehensive summary of the state-of-the-art, challenges, and prospects in the experimental and theoretical study of the strong coupling. The current α S ( m Z 2 ) world average is derived from a combination of seven categories of observables: (i) lattice QCD, (ii) hadronic τ decays, (iii) deep-inelastic scattering and parton distribution functions fits, (iv) electroweak boson decays, hadronic final-states in (v) e+e−, (vi) e-p, and (vii) p-p collisions, and (viii) quarkonia decays and masses. We review the current status of each of these seven α S ( m Z 2 ) extraction methods, discuss novel α S determinations, and examine the averaging method used to obtain the world-average value. Each of the methods discussed provides a ‘wish list’ of experimental and theoretical developments required in order to achieve the goal of a per-mille precision on α S ( m Z 2 ) within the next decade.

AB - Theoretical predictions for particle production cross sections and decays at colliders rely heavily on perturbative Quantum Chromodynamics (QCD) calculations, expressed as an expansion in powers of the strong coupling constant α S . The current O ( 1 % ) uncertainty of the QCD coupling evaluated at the reference Z boson mass, α S ( m Z 2 ) = 0.1179 ± 0.0009 , is one of the limiting factors to more precisely describe multiple processes at current and future colliders. A reduction of this uncertainty is thus a prerequisite to perform precision tests of the Standard Model as well as searches for new physics. This report provides a comprehensive summary of the state-of-the-art, challenges, and prospects in the experimental and theoretical study of the strong coupling. The current α S ( m Z 2 ) world average is derived from a combination of seven categories of observables: (i) lattice QCD, (ii) hadronic τ decays, (iii) deep-inelastic scattering and parton distribution functions fits, (iv) electroweak boson decays, hadronic final-states in (v) e+e−, (vi) e-p, and (vii) p-p collisions, and (viii) quarkonia decays and masses. We review the current status of each of these seven α S ( m Z 2 ) extraction methods, discuss novel α S determinations, and examine the averaging method used to obtain the world-average value. Each of the methods discussed provides a ‘wish list’ of experimental and theoretical developments required in order to achieve the goal of a per-mille precision on α S ( m Z 2 ) within the next decade.

KW - QCD

KW - colliders

KW - strong coupling

UR - https://www.scopus.com/pages/publications/85208751586

U2 - 10.1088/1361-6471/ad1a78

DO - 10.1088/1361-6471/ad1a78

M3 - Article

AN - SCOPUS:85208751586

SN - 0954-3899

VL - 51

JO - Journal of Physics G: Nuclear and Particle Physics

JF - Journal of Physics G: Nuclear and Particle Physics

IS - 9

M1 - 090501

ER -

The strong coupling constant: state of the art and the decade ahead

Abstract

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