Conveners
WG3 Electro-weak physics/higgs/top and BSM: Top Physics 1
- Ken Mimasu (University of Southampton)
- Menglin Xu
WG3 Electro-weak physics/higgs/top and BSM: Top Physics 2
- Menglin Xu
- Ken Mimasu (University of Southampton)
WG3 Electro-weak physics/higgs/top and BSM: Multiboson
- Menglin Xu
- Ken Mimasu (University of Southampton)
WG3 Electro-weak physics/higgs/top and BSM: Flavor physics
- Ken Mimasu (University of Southampton)
- Menglin Xu
WG3 Electro-weak physics/higgs/top and BSM: Precision Measurements
- Menglin Xu
- Ken Mimasu (University of Southampton)
WG3 Electro-weak physics/higgs/top and BSM: Higgs Physics
- Renรฉ Poncelet (IFJ PAN Krakow)
- Supriya Sinha (DESY)
WG3 Electro-weak physics/higgs/top and BSM: Higgs Physics & BSM
- Supriya Sinha (DESY)
- Renรฉ Poncelet (IFJ PAN Krakow)
WG3 Electro-weak physics/higgs/top and BSM: BSM Physics
- Supriya Sinha (DESY)
- Renรฉ Poncelet (IFJ PAN Krakow)
WG3 Electro-weak physics/higgs/top and BSM: EFT
- Renรฉ Poncelet (IFJ PAN Krakow)
- Supriya Sinha (DESY)
WG3 Electro-weak physics/higgs/top and BSM: LLPs & Future Colliders
- Renรฉ Poncelet (IFJ PAN Krakow)
- Supriya Sinha (DESY)
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Alberto Prades (Istituto Nazionale di Fisica Nucleare)05/05/2026, 09:00WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
The top-quark mass is one of the key fundamental parameters of the Standard Model that must be determined experimentally. Its value has an important effect on many precision measurements and tests of the Standard Model. In this contribution, the top quark mass measurements by the ATLAS experiment are reviewed. In addition, new results on top-quark properties are shown.
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Javier Cuevas (Universidad de Oviedo (ES), ICTEA)05/05/2026, 09:20WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
Precision measurements of top quark properties are of paramount importance for our understanding of the SM. We present several measurements of cross section top quark production and of its properties, including asymmetries and spin correlations. These measurements allow us to test the fundamentals of quantum mechanics at the highest energies achieved so far and also serve as an excellent probe...
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Emanuele Re (Istituto Nazionale di Fisica Nucleare)05/05/2026, 09:40WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
We consider the QCD predictions for spin correlations in ttbar production at the LHC and argue that, for the observables usually considered for searches close to threshold production, it is possible to perform the calculation using perturbation theory, considering only the contributions that scale as the first few powers of alphas/v. Implementing such strategy to correct nominal Monte Carlo...
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Nello Bruscino (NA)05/05/2026, 10:00WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
The exceptionally large dataset collected by the ATLAS detector at the highest proton-proton collision energies provided by the LHC enables precision testing of theoretical predictions using an extensive sample of top quark events. This wealth of data has opened the door to new measurements of top quark properties including those particularly sensitive to the ttbar threshold region. This...
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Victor Rodriguez Lorenzo (Universidad de Cantabria and CSIC (ES))05/05/2026, 11:00WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
Precision measurements of top quark production cross sections are crucial for validating the Standard Model and investigating potential new physics. In this talk, we present both inclusive and differential measurements of top quark production in association vector bosons and other rare processes. Such measurements are used to set limits on new physics contributions affecting the interactions...
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Barbora Eckerova05/05/2026, 11:20WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
Many-parameter fits to precise measurements in the framework of the Standard Model Effective Field Theory are becoming a standard interpretation of LHC and other collider data. In this contribution an overview is given of state-of-the-art EFT interpretations in ATLAS with particular emphasis on results in the top quark sector.
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Mattia Pozzoli (Istituto Nazionale di Fisica Nucleare)05/05/2026, 11:40WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
In this talk I will present the first exact calculation of the leading-colour two-loop QCD amplitude for the associated production of a top-anti-top pair and a W boson. I will discuss strategies to address the complexity of the computation, which involves complicated analytic structures, such as nested square roots, elliptic functions, and expressions with a high degree of algebraic...
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Nikolaos Dimitrakopoulos (RWTH Aachen University)05/05/2026, 12:00WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
In this presentation, I will talk about the Multi-scale improved NLO (MINLO) method as an alternative to the standard fixed-order NLO approach. The MINLO method, which is now implemented in the HELAC-NLO framework, depends on an arbitrary choice of renormalization and factorization scales. This approach dynamically determines these scales based on the most probable branching histories and...
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Manal Alsairafi (RWTH Aachen University)05/05/2026, 12:20WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelFlash talk
In this talk I present NLO QCD predictions for the $pp\to t\bar{t}t\bar{t}+X$ process in the 4 lepton decay channel at the integrated and differential level for the LHC centre-of-mass energy of $\sqrt{s}=13.6$ TeV. Specifically I compare the fixed order NLO QCD calculations to the parton-shower matched results obtained with MC@NLO and POWHEG matching. In the former, NLO QCD corrections are...
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Leon Mans (RWTH Aachen University)05/05/2026, 12:28WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelFlash talk
I will present results for the complete next-to-leading-order (NLO) corrections to full off-shell top-quark pair production in the $\ell+j$ decay channel, $pp \to \ell^- \bar{\nu}_\ell\, j_b j_b \, jj + X$, with $\ell^- = e^-,\, \mu^-$. The calculation consistently includes finite-width effects of the top quarks and $W^\pm/Z$ gauge bosons, as well as all doubly-, singly-, and non-resonant...
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Mareen Hoppe05/05/2026, 14:30WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
Probing the electroweak sector and electroweak symmetry breaking in unprecedented detail is one of the primary goals of the upcoming HL-LHC program. Measurements of vector-boson polarizations represent a promising avenue toward this objective. The extraction of the different polarization components from experimentally accessible unpolarized distributions requires accurate particle-level...
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Alain Bellerive05/05/2026, 14:50WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
This talk will present the latest measurement results from the ATLAS experiment, concerning production or interactions among multiple vector bosons, including production of ZZ, Wgamma dibosons, vector boson fusion production of W bosons, and production of ZZgamma tribosons. These latest results offer a next-level investigation into the SM electroweak sector.
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Tianyu Mu (Peking University (CN))05/05/2026, 15:10WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
Multiboson production at the LHC turns the CMS detector into a stressโtester of the Standard Model, where intertwined gauge bosons expose the full richness of the electroweak force. Vector boson scattering is a key production process to probe the electroweak symmetry breaking of the standard model, since it involves both self-couplings of vector bosons and coupling with the Higgs boson. This...
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Dhimiter Canko (University of Bologna and INFN)05/05/2026, 15:35WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelFlash talk
We present the computation of all planar three-loop four-point integral families with two off-shell legs, which are relevant for the leading-colour N3LO QCD corrections to the production of two massive vector bosons at hadron colliders. We employ the method of differential equations, enhanced by the construction of pure bases for the master integrals of each family, and utilize finite field...
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Giovanni Pelliccioli (University of Milano-Bicocca)05/05/2026, 15:55WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
The study of quantum-information observables at the TeV energy scale has intensified the focus on precision measurements of the spin structure of weak-boson pairs at the LHC. We show that a robust spin interpretation of diboson events demands an accurate determination of joint polarisation fractions and of the off-diagonal entries of the spin-density matrix. This requires the inclusion of...
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Xuanbo Tong05/05/2026, 16:45WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
Electric dipole moment (EDM) of baryons provides a sensitive probe of CP-violating interactions beyond the Standard Model. Motivated by the recent BESIII measurement on the $\Lambda$-hyperon EDM, we present the first perturbative QCD analysis of the $\Lambda$ EDM form factor to elucidate its origin in CP-violating quark dipole interactions. In particular, we derive a QCD factorization formula...
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Daniel Grewe05/05/2026, 17:05WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
The NA62 experiment at CERN, designed to measure the highly-suppressed decay $K^{+} \to \pi^{+}\nu\bar{\nu}$, has the capability to collect data in a beam-dump mode, where 400 GeV protons are dumped on an absorber. In this configuration, New Physics particles may be produced in the absorber and decay in an instrumented volume beginning approximately 80 m downstream of the dump. Preliminary...
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Tommaso Spadaro (Istituto Nazionale di Fisica Nucleare)05/05/2026, 17:30WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
The $K^{+}\rightarrow\pi^{+}\nu\bar{\nu}$ decay is a golden mode for flavour physics. Its branching ratio is predicted with high precision by the Standard Model to be less than $10^{-10}$, and this decay mode is highly sensitive to indirect effects of new physics up to the highest mass scales. Using data collected in 2016--2022 NA62 announced the first observation of this decay with a...
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Cemal Dinรง (Middle East Technical University (TR), SND@LHC Collaboration)05/05/2026, 17:55WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
SND@LHC is a compact and stand-alone experiment to perform measurements with neutrinos produced at the LHC in a hitherto unexplored pseudo-rapidity region of 7.2 < ๐ < 8.6,
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complementary to all the other experiments at the LHC. The experiment is located 480 m downstream of IP1 in the unused TI18 tunnel.
The detector is composed of a hybrid system based on an 800 kg target mass of tungsten... -
Sofia Zalambani (Istituto Nazionale di Fisica Nucleare)05/05/2026, 18:15WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
Charged-current semileptonic b-hadron decays are a prime arena for precision tests of the Standard Model and sensitive probes of physics beyond it. At LHCb, large heavy-flavour yields enable measurements of both high-rate modes (with light leptons) and lepton-universalityโtesting channels with taus, alongside detailed studies of differential and angular observables. Interpreting these results...
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Alessandro Bertolin (Istituto Nazionale di Fisica Nucleare)05/05/2026, 18:35WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
A precise measurement of the CKM angle $\gamma$ is a standard candle measurement of CP violation in the Standard Model and a central goal of the LHCb experiment. The latest LHCb results from measurements of CP violation using beauty to open charm decays are presented. These include novel measurements and the latest LHCb combination of $\gamma$ and charm mixing measurements.
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Dr Francesco Giovanni Celiberto (UAH Madrid)06/05/2026, 09:00WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
Recent studies of inclusive Higgs rates at N$^3$LO have shown that high-energy resummation effects can reach the 10\% level, reinforcing the idea that electroweak observables from LHC to FCC energies are increasingly shaped by high-energy QCD dynamics. Here we present the first high-energy-resummed predictions for DrellโYan plus jet production, providing rapidity and transverse-momentum...
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Mauro Chiesa (Istituto Nazionale di Fisica Nucleare)06/05/2026, 09:20WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
The physics program of the LHC and the High-Luminosity LHC (HL-LHC) demands increasingly precise theoretical predictions. This is particularly crucial for measurements relying on template fit methods, where Monte Carlo event generators are used to produce event samples as a function of the parameter of interest, and the physical observable is extracted by fitting these templates to the data....
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Dr Hyon-San Seo (University of Rochester)06/05/2026, 09:40WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
We present an improved extraction of the effective leptonic weak mixing angle, $\sin^2\theta^\ell_{\mathrm{eff}}$, based on the published CMS measurement of the forwardโbackward asymmetry ($A_{\rm FB}$) in DrellโYan dilepton production at a center-of-mass energy of 13 TeV. The published CMS extraction already reduces parton distribution function (PDF) uncertainties by profiling with the...
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Simone Devoto (University of Ghent)06/05/2026, 10:00WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
In the context of the precision physics programme at the HL-LHC and the FCC-ee, electroweak corrections will play a central role. In this talk, I will discuss recent developments in the computation of two-loop electroweak amplitudes to lepton-pair production. First, I will present the ultraviolet-renormalised and infrared-subtracted finite remainder of the two-loop amplitude in quantum...
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Balma Duch (Institut de Fรญsica d'Altes Energies (IFAE))06/05/2026, 10:20WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelFlash talk
We calculate the 1-loop $\gamma Z$ box-graph correction to electron-quark scattering at low energy and low momentum transfer. Both electron and quark masses are kept non-zero. From our result, we extract coupling constants for the low-energy effective Lagrangian with parity-violating 4-fermion interaction terms. We study the zero-mass limits and show that a non-zero electron mass is...
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Alisha Lightbody (Universitรฉ Paris Saclay - CEA Saclay)06/05/2026, 11:15WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
The measurement of Drell-Yan dilepton production at hadron colliders is a key channel to constrain the partonic content of hadrons. There exists no measurement at masses below 10 GeV/c and low transverse momentum at hadron colliders due to the dominating background from semileptonic decays of charm and beauty hadrons. The SemiCharmTag algorithm is presented to increase the signal-to-background...
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Arnd Behring (Max Planck Institute for Physics)06/05/2026, 11:35WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
I report on our recent calculations for Higgs production in weak-boson fusion with subsequent decays of the Higgs boson to bottom quarks. We take into account NNLO QCD corrections to the production and decay and also consider a parton-shower-based description for the Higgs decay. We observe large corrections to fiducial observables in the fixed-order calculation, which we trace back to mainly...
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Ocรฉane Poncet (The State University of New York SUNY (US))06/05/2026, 11:55WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
The talk will cover recent measurements of Higgs cross sections and its coupling to the standard model particles. It will also describe the properties of this particle, including its mass, CP properties and polarization states of the decay products using data collected by the CMS experiment during LHC Run2 and Run3.
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Haitao Li (Shandong University)06/05/2026, 12:15WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
The production of a Higgs boson in association with a high-pT jet provides a clean and sensitive channel to study the Higgs kinematics and couplings, and plays a crucial role in differential analyses at the LHC. We present the calculation of complete next-to-leading order electroweak corrections to the Higgs boson production in gg->Hg channel. We apply the method of differential equations...
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Monika Juzek (Institute of Nuclear Physics Polish Academy of Sciences)06/05/2026, 12:35WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelFlash talk
Talk Abstract Searching for Beyond Standard Model (BSM) physics is a key objective of the ATLAS experiment at the LHC. Many BSM scenarios, such as two-Higgs-doublet models (2HDM) and the Minimal Supersymmetric Standard Model (MSSM), predict additional Higgs bosons, including a charged Higgs boson (Hยฑ). In these models, the decay Hยฑโฯฮฝโ is expected to have a significant branching fraction over...
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Fengwangdong Zhang06/05/2026, 14:30WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
A variety of searches for the SM Higgs boson decaying to a pair of light scalars are performed with p-p collisions data collected by the CMS detector. In this talk, we present recent highlights from these searches.
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Monica Verducci (Istituto Nazionale di Fisica Nucleare)06/05/2026, 14:50WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
The discovery of the Higgs boson with the mass of about 125 GeV completed the particle content predicted by the Standard Model. Even though this model is well established and consistent with many measurements, it is not capable to solely explain some observations. Many extensions of the Standard Model addressing such shortcomings introduce additional Higgs bosons, beyond-the-Standard-Model...
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Konstantin Schmid (University and INFN Padova)06/05/2026, 15:10WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
In searches for physics beyond the Standard Model (BSM), bottom-up effective field theories (EFTs) such as the Standard Model EFT (SMEFT) and Higgs EFT (HEFT) have become crucial theoretical tools. In particular, Higgs pair production offers the opportunity to probe correlations among the couplings of one or two Higgs bosons to fermions and gauge bosons. In this context, it serves as a...
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Lydia Beresford06/05/2026, 15:30WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
In ultra-relativistic heavy-ion collisions, large rates of $\gamma\gamma$ processes arise from the intense electromagnetic fields generated by the colliding nuclei. These $\gamma\gamma$ interactions provide a powerful laboratory to study reactions that may be sensitive to physics beyond the Standard Model. In ultra-peripheral collisions (UPCs), where the impact parameter between the nuclei...
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Carlo Di Fraia (Istituto Nazionale di Fisica Nucleare)06/05/2026, 16:45WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
The Standard Model of particle physics explains many natural phenomena yet remains incomplete. Leptoquarks (LQs) are hypothetical particles predicted to mediate interactions between quarks and leptons, bridging the gap between these two fundamental classes of particles. Vector-like quarks (VLQs) and vector-like leptons (VLLs) lie at the heart of many extensions seeking to address the Hierarchy...
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Andrii Usachov (Nikhef and VU Amsterdam)06/05/2026, 17:10WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
The LHCb detector at the LHC provides unique coverage in the forward rapidity region (2<$\eta$<5). Its flexible trigger system enables the efficient recording of low-mass states, while the high-precision vertex detector allows for excellent separation between primary interactions and secondary decays. These capabilities make LHCb particularly powerful in exploring regions of phase space...
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James Smith (University of Manchester)06/05/2026, 17:30WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
Various theories beyond the Standard Model predict new physics phenomena that require dedicated and unconventional reconstruction techniques and background estimation strategies. Examples include displaced decays from long-lived particles scenarios or Dark Matter models where the target particles fall below standard trigger thresholds. These signatures often challenge traditional search...
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Yuchen Cai (Istituto Nazionale di Fisica Nucleare)06/05/2026, 17:55WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
Supersymmetry (SUSY) provides elegant solutions to several problems in the Standard Model, and searches for SUSY particles are an important component of the LHC physics program. The direct production of electroweak SUSY particles, including sleptons, charginos, and neutralinos, is a particularly interesting area with connections to dark matter and the naturalness of the Higgs mass. Naturalness...
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Lydia Brenner (CERN)07/05/2026, 09:20WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
Effective Field Theories (EFT) offer a consistent means to combine a broad scope of measurements to probe the potential boundaries of phenomena beyond the Standard Model. To maximize the search potential, various efforts are focused on improving the measurement precision of EFT wilcon coefficients, by combining multiple relevant results. This talk will discuss the recent EFT combination...
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Marion Thomas (Max Planck Institut fรผr Physik)07/05/2026, 09:40WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
In the context of the European Strategy for Particle Physics 2026 Update, we present projections for the new physics reach of future high-energy colliders using the latest version of the SMEFiT framework, with a focus on near-term electron-positron colliders (FCC-ee, LEP3, CEPC, and LCF). We quantify the sensitivity of these colliders to the SMEFT parameter space in a global analysis, where we...
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Martina Fusi (University of Southampton)07/05/2026, 10:00WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelFlash talk
The Standard Model (SM) of particle physics describes the fundamental particles and their interactions with remarkable precision. Yet, it cannot explain key mysteries such as the nature of dark matter, the role of gravity, or why the universe contains more matter than antimatter.
With no new particles directly observed at the Large Hadron Collider (LHC), the most promising approach is to...
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Ella Cole07/05/2026, 10:08WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelFlash talk
Indirect searches for new physics increasingly rely on precise theoretical predictions in the high-energy tails of the distributions, with Parton Distribution Functions (PDFs) being one of the main bottlenecks.
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In this talk, I explore the interplay between the fits of Standard Model Effective Field Theory (SMEFT) Wilson coefficients and PDFs in two key sectors at the LHC, the Drell-Yan and... -
Dr Hamzeh Khanpour (AGH University of Krakรณw)07/05/2026, 11:00WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
We will present the Higgs-Electroweak-Top (HET) physics potential of the proposed LH$\mu$C, an anti-muon-hadron collider at CERN [1,2]. By combining multi-TeV centre-of-mass energy with high luminosity, LH$\mu$C offers excellent conditions for exploring the HET physics. In the talk, we will report benchmark inclusive cross sections for Higgs production and for key top-quark processes, and...
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Yingsheng Huang (Central South University)07/05/2026, 11:20WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
We propose nucleon energy correlators (NECs) as a novel framework to probe electroweak light-quark dipole operators in deep inelastic scattering with an unpolarized nucleon. These operators encode chirality-flipping interactions, whose effects are usually quadratically suppressed in unpolarized cross sections. We construct a chiral-odd quark NEC that accesses quark transverse spin via...
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Guglielmo Frisella07/05/2026, 11:40WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
The SHiP/NA67 experiment is a general purpose intensity-frontier experiment for the search for feebly interacting GeV-scale particles and to perform neutrino physics measurements at the HI-ECN3 (high-intensity) beam facility at the CERN SPS, operated in beam-dump mode, taking full advantage of the available $4\times 10^{19}$ protons per year at 400 GeV. The Collaboration is now in the phase of...
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Volker Austrup (University of Manchester)07/05/2026, 12:00WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
The reconstruction and precise measurement of muons are essential for a wide range of physics analyses within the ATLAS experiment at the Large Hadron Collider (LHC). During Run-3, the ATLAS Muon Spectrometer underwent major upgrades, most notably the installation of the New Small Wheel system, designed to improve tracking and triggering performance in the forward region. Assessing the...
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Marco Cruciani (University of Bologna and INFN)07/05/2026, 12:20WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
Several beyond standard model theories hypothesize the existence of long-lived particles (LLP) that have macroscopic decay lengths and thus can travel a measurable distance in the CMS detector before decaying. Displacement from a few hundred micrometers to several meters allows probing a wide range of models predicting LLP decaying to muons. To track with high precision muons that are...
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Angelo Di Canto (Brookhaven National Laboratory)07/05/2026, 12:40WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
The Belle II experiment at the SuperKEKB eโบeโป collider has collected over 575 fbโปยน of data since 2019. Operating in a low-background environment with well-constrained kinematics, Belle II provides exceptional sensitivity to electroweak processes and searches for physics beyond the Standard Model. This talk will present recent Belle II results including the first evidence for BโบโKโบฮฝฮฝฬ decay and...
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Riccardo Bartocci (Karlsruhe Institute of Technology (KIT))WG3 Electroweak Physics, top, Higgs and Beyond the Standard ModelTalk
The Standard Model (SM) of particle physics, despite its remarkable predictive success, is widely recognised as incomplete. Effective Field Theories (EFTs), and in particular the Standard Model Effective Field Theory (SMEFT), provide a systematic framework to parametrise possible effects of physics beyond the SM.
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In this talk, I review the consistent inclusion of higher-order effects,...