Input to the European strategy for particle physics: strong-field quantum electrodynamics

G. Sarri; B. King; T. Blackburn; A. Ilderton; S. Boogert; S. V. Bulanov; S. V. Bulanov; A. Di Piazza; L. Ji; F. Karbstein; C. H. Keitel; K. Krajewska; V. Malka; S. P. D. Mangles; F. Mathieu; P. McKenna; S. Meuren; M. Mirzaie; C. Ridgers; D. Seipt; A. G. R. Thomas; U. Uggerhøj; M. Vranic; M. Wing

doi:10.1140/epjp/s13360-025-07057-7

Input to the European strategy for particle physics: strong-field quantum electrodynamics

G. Sarri^*, B. King, T. Blackburn, A. Ilderton, S. Boogert, S. V. Bulanov, S. V. Bulanov, A. Di Piazza, L. Ji, F. Karbstein, C. H. Keitel, K. Krajewska, V. Malka, S. P. D. Mangles, F. Mathieu, P. McKenna, S. Meuren, M. Mirzaie, C. Ridgers, D. SeiptA. G. R. Thomas, U. Uggerhøj, M. Vranic, M. Wing

^*Corresponding author for this work

Research output: Contribution to journal › Review article › peer-review

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Abstract

This document sets out the intention of the strong-field QED community to carry out, both experimentally and numerically, high-statistics parametric studies of quantum electrodynamics in the non-perturbative regime, at fields approaching and exceeding the critical or ‘Schwinger’ field of QED (Fqed=m2c3/eħ≈1.3×1018 V/m) in the rest frame of a charged particle. In this regime, several exotic and fascinating phenomena are predicted to occur that have never been directly observed in the laboratory. These include Breit–Wheeler pair production, vacuum birefringence, and quantum radiation reaction. This experimental programme will also serve as a stepping stone towards studies of elusive phenomena such as elastic scattering of real photons and the conjectured perturbative breakdown of QED at extreme fields. State-of-the-art high-power laser facilities in Europe and beyond are starting to offer unique opportunities to study this uncharted regime at the intensity frontier, which is highly relevant also for the design of future multi-TeV lepton colliders. A transition from qualitative observational experiments to quantitative and high-statistics measurements can only be performed with large-scale collaborations and with systematic experimental programmes devoted to the optimisation of several aspects of these complex experiments, including detector developments, stability and tolerances studies, and laser technology.

Original language	English
Article number	1151
Journal	The European Physical Journal Plus
Volume	140
Issue number	11
DOIs	https://doi.org/10.1140/epjp/s13360-025-07057-7
Publication status	Published - 29 Nov 2025

Funding

G. Sarri acknowledges support from the EPSRC (Grant No. EP/V049186/1). B. King acknowledges support from The Leverhulme Trust, Grants No. RPG-2023-285 and No. RPG-2024-142. A. Ilderton acknowledges STFC consolidator grant ST/X000494/1 “Particle Theory at the Higgs Centre” and EPSRC grant EP/X024199/1, “Fresh perspectives for QED in intense backgrounds: first quantised techniques in strong-field QED”. M. Wing acknowledges the support of DESY, Hamburg. S.V. Bulanov wishes to acknowledge support by the NSF and Czech Science Foundation (NSF-GACR collaborative Grant No. 2206059 and NSF Grant No. 2108075 and Czech Science Foundation Grant No. 22-42963 L. This material is based upon work supported by the Department of Energy [National Nuclear Security Administration] University of Rochester “National Inertial Confinement Fusion Programme” under Award Number(s) DE-NA0004144.

Keywords

quantum electrodynamics
elastic scattering
multi-TeV lepton colliders

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Sarri, G., King, B., Blackburn, T., Ilderton, A., Boogert, S., Bulanov, S. V., Bulanov, S. V., Di Piazza, A., Ji, L., Karbstein, F., Keitel, C. H., Krajewska, K., Malka, V., Mangles, S. P. D., Mathieu, F., McKenna, P., Meuren, S., Mirzaie, M., Ridgers, C., ... Wing, M. (2025). Input to the European strategy for particle physics: strong-field quantum electrodynamics. The European Physical Journal Plus, 140(11), Article 1151. https://doi.org/10.1140/epjp/s13360-025-07057-7

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title = "Input to the European strategy for particle physics: strong-field quantum electrodynamics",

abstract = "This document sets out the intention of the strong-field QED community to carry out, both experimentally and numerically, high-statistics parametric studies of quantum electrodynamics in the non-perturbative regime, at fields approaching and exceeding the critical or {\textquoteleft}Schwinger{\textquoteright} field of QED (Fqed=m2c3/eħ≈1.3×1018 V/m) in the rest frame of a charged particle. In this regime, several exotic and fascinating phenomena are predicted to occur that have never been directly observed in the laboratory. These include Breit–Wheeler pair production, vacuum birefringence, and quantum radiation reaction. This experimental programme will also serve as a stepping stone towards studies of elusive phenomena such as elastic scattering of real photons and the conjectured perturbative breakdown of QED at extreme fields. State-of-the-art high-power laser facilities in Europe and beyond are starting to offer unique opportunities to study this uncharted regime at the intensity frontier, which is highly relevant also for the design of future multi-TeV lepton colliders. A transition from qualitative observational experiments to quantitative and high-statistics measurements can only be performed with large-scale collaborations and with systematic experimental programmes devoted to the optimisation of several aspects of these complex experiments, including detector developments, stability and tolerances studies, and laser technology.",

keywords = "quantum electrodynamics, elastic scattering, multi-TeV lepton colliders",

author = "G. Sarri and B. King and T. Blackburn and A. Ilderton and S. Boogert and Bulanov, \{S. V.\} and Bulanov, \{S. V.\} and \{Di Piazza\}, A. and L. Ji and F. Karbstein and Keitel, \{C. H.\} and K. Krajewska and V. Malka and Mangles, \{S. P. D.\} and F. Mathieu and P. McKenna and S. Meuren and M. Mirzaie and C. Ridgers and D. Seipt and Thomas, \{A. G. R.\} and U. Uggerh{\o}j and M. Vranic and M. Wing",

year = "2025",

month = nov,

day = "29",

doi = "10.1140/epjp/s13360-025-07057-7",

language = "English",

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number = "11",

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Sarri, G, King, B, Blackburn, T, Ilderton, A, Boogert, S, Bulanov, SV, Bulanov, SV, Di Piazza, A, Ji, L, Karbstein, F, Keitel, CH, Krajewska, K, Malka, V, Mangles, SPD, Mathieu, F, McKenna, P, Meuren, S, Mirzaie, M, Ridgers, C, Seipt, D, Thomas, AGR, Uggerhøj, U, Vranic, M & Wing, M 2025, 'Input to the European strategy for particle physics: strong-field quantum electrodynamics', The European Physical Journal Plus, vol. 140, no. 11, 1151. https://doi.org/10.1140/epjp/s13360-025-07057-7

TY - JOUR

T1 - Input to the European strategy for particle physics

T2 - strong-field quantum electrodynamics

AU - Sarri, G.

AU - King, B.

AU - Blackburn, T.

AU - Ilderton, A.

AU - Boogert, S.

AU - Bulanov, S. V.

AU - Di Piazza, A.

AU - Ji, L.

AU - Karbstein, F.

AU - Keitel, C. H.

AU - Krajewska, K.

AU - Malka, V.

AU - Mangles, S. P. D.

AU - Mathieu, F.

AU - McKenna, P.

AU - Meuren, S.

AU - Mirzaie, M.

AU - Ridgers, C.

AU - Seipt, D.

AU - Thomas, A. G. R.

AU - Uggerhøj, U.

AU - Vranic, M.

AU - Wing, M.

PY - 2025/11/29

Y1 - 2025/11/29

N2 - This document sets out the intention of the strong-field QED community to carry out, both experimentally and numerically, high-statistics parametric studies of quantum electrodynamics in the non-perturbative regime, at fields approaching and exceeding the critical or ‘Schwinger’ field of QED (Fqed=m2c3/eħ≈1.3×1018 V/m) in the rest frame of a charged particle. In this regime, several exotic and fascinating phenomena are predicted to occur that have never been directly observed in the laboratory. These include Breit–Wheeler pair production, vacuum birefringence, and quantum radiation reaction. This experimental programme will also serve as a stepping stone towards studies of elusive phenomena such as elastic scattering of real photons and the conjectured perturbative breakdown of QED at extreme fields. State-of-the-art high-power laser facilities in Europe and beyond are starting to offer unique opportunities to study this uncharted regime at the intensity frontier, which is highly relevant also for the design of future multi-TeV lepton colliders. A transition from qualitative observational experiments to quantitative and high-statistics measurements can only be performed with large-scale collaborations and with systematic experimental programmes devoted to the optimisation of several aspects of these complex experiments, including detector developments, stability and tolerances studies, and laser technology.

AB - This document sets out the intention of the strong-field QED community to carry out, both experimentally and numerically, high-statistics parametric studies of quantum electrodynamics in the non-perturbative regime, at fields approaching and exceeding the critical or ‘Schwinger’ field of QED (Fqed=m2c3/eħ≈1.3×1018 V/m) in the rest frame of a charged particle. In this regime, several exotic and fascinating phenomena are predicted to occur that have never been directly observed in the laboratory. These include Breit–Wheeler pair production, vacuum birefringence, and quantum radiation reaction. This experimental programme will also serve as a stepping stone towards studies of elusive phenomena such as elastic scattering of real photons and the conjectured perturbative breakdown of QED at extreme fields. State-of-the-art high-power laser facilities in Europe and beyond are starting to offer unique opportunities to study this uncharted regime at the intensity frontier, which is highly relevant also for the design of future multi-TeV lepton colliders. A transition from qualitative observational experiments to quantitative and high-statistics measurements can only be performed with large-scale collaborations and with systematic experimental programmes devoted to the optimisation of several aspects of these complex experiments, including detector developments, stability and tolerances studies, and laser technology.

KW - quantum electrodynamics

KW - elastic scattering

KW - multi-TeV lepton colliders

U2 - 10.1140/epjp/s13360-025-07057-7

DO - 10.1140/epjp/s13360-025-07057-7

M3 - Review article

VL - 140

JO - The European Physical Journal Plus

JF - The European Physical Journal Plus

IS - 11

M1 - 1151

ER -

Input to the European strategy for particle physics: strong-field quantum electrodynamics

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