Conveners
WG6 Current upgrades and future experiments
- Lesya Shchutska (EPFL)
WG6 Current upgrades and future experiments
- Domenico Elia (Istituto Nazionale di Fisica Nucleare)
WG6 Current upgrades and future experiments
- Boxing Gou (Institute of Modern Physics, CAS)
WG6 Current upgrades and future experiments
- Federico Lasagni Manghi (Istituto Nazionale di Fisica Nucleare)
WG6 Current upgrades and future experiments
- Domenico Elia (Istituto Nazionale di Fisica Nucleare)
WG6 Current upgrades and future experiments
- Boxing Gou (Institute of Modern Physics, CAS)
WG6 Current upgrades and future experiments
- Federico Lasagni Manghi (Istituto Nazionale di Fisica Nucleare)
WG6 Current upgrades and future experiments
- Domenico Elia (Istituto Nazionale di Fisica Nucleare)
WG6 Current upgrades and future experiments
- Boxing Gou (Institute of Modern Physics, CAS)
WG6 Current upgrades and future experiments
- Lesya Shchutska (EPFL)
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Alessandro Tricoli (Brookhaven National Laboratory)05/05/2026, 09:00WG6 Current Upgrades and Future ExperimentsTalk
High-Energy (HEP) and Nuclear Physics (NP) experiments are becoming more and more similar in so far as accelerator and detector technologies, experimental techniques, scientific programs as well as communities. More specifically, there is a very successful cross-fertilization between the Large Hadron Collider (LHC) and the Electron Ion Collider (EIC) experiments. The EIC at Brookhaven...
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Dr Francesco Giuli (Istituto Nazionale di Fisica Nucleare)05/05/2026, 09:20WG6 Current Upgrades and Future ExperimentsTalk
The Large Hadron electron Collider (LHeC) is the proposal to deliver electron-proton/nucleus collisions at CERN using the LHC beams and a 50 GeV electron beam from an Energy Recovery Linac. While initially foreseen [1] for concurrent electron-hadron and hadron-hadron operation, a standalone electron-hadron operation phase has been proposed [2] in view of the current LHC schedule. Thus, the...
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Dr Laurent Forthomme (AGH University of Krakรณw (PL))05/05/2026, 09:40WG6 Current Upgrades and Future ExperimentsTalk
The Large Hadron electron Collider (LHeC) is the proposal to deliver electron-proton/nucleus collisions at CERN using the LHC beams and a 50 GeV electron beam from an Energy Recovery Linac. While initially foreseen [1] for concurrent electron-hadron and hadron-hadron operation, a standalone electron-hadron operation phase has been proposed [2] in view of the current LHC schedule. Thus, the...
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Iacopo Vivarelli (Istituto Nazionale di Fisica Nucleare)05/05/2026, 10:00WG6 Current Upgrades and Future ExperimentsTalk
The future circular electron-positron collider (FCC-ee) has been outlined as the recommended priority for the next collider at CERN by the EU strategy update process. We present IDEA, a detector concept optimized for FCC-ee and composed of a vertex detector based on DMAPS (Depleted Monolithic Active Pixel Sensors), a very light drift chamber, a silicon wrapper, a crystal electromagnetic...
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Ramandeep Kumar (Istituto Nazionale di Fisica Nucleare, Sezione di Trieste)05/05/2026, 10:20WG6 Current Upgrades and Future ExperimentsFlash talk
The future Electron Ion Collider (EIC) in BNL, USA, will be the ultimate facility to study Quantum Chromodynamics (QCD) with an unprecedented accuracy. The ePIC detector is a general purpose detector, capable of providing the entire physics programme documented in the EIC Yellow report. The requirements for the EIC accelerator and the ePIC detector are challenging. In the EIC highly polarized...
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Marco Contalbrigo (Istituto Nazionale di Fisica Nucleare)05/05/2026, 11:00WG6 Current Upgrades and Future ExperimentsTalk
In the recent years, it has been realized that deep-inelastic scattering with polarization control could provide a variety of spin and azimuthal angle dependent observables sensitive to the quark-gluon interactions. New parton distributions and fragmentation functions have been introduced to describe the rich complexity of the hadron structure and move towards a multi-dimensional imaging of...
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Prof. Krzysztof Piotrzkowski (AGH University)05/05/2026, 11:20WG6 Current Upgrades and Future ExperimentsTalk
The latest developments concerning the possibility of making muon-hadron collisions by reusing the ERL infrastructure, proposed for the LHeC, will be presented. At the LH$\mu$C, a 500 GeV $\mu^+$ beam will be colliding with a 7 TeV proton beam, resulting in the centre-of-mass energy $\sqrt{s}=3.74$ TeV (higher than at the FCC-eh), with the expected luminosity above...
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Anna Piccoli (University of Ferrara, Istituto Nazionale di Fisica Nucleare - Sezione di Ferrara)05/05/2026, 11:40WG6 Current Upgrades and Future ExperimentsTalk
Understanding the complex structure of nucleons in terms of quarks and gluons represents one of the most pivotal and contemporary challenges in particle physics. A significant advancement has been made through measurements accessing their multi-dimensional structure, crucial for gaining new insight into the strong interaction in the non-perturbative regime of QCD, as well as for opening new...
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Paul Newman05/05/2026, 12:00WG6 Current Upgrades and Future ExperimentsTalk
The Large Hadron electron Collider (LHeC) is the proposal to deliver electron-proton/nucleus collisions at CERN using the LHC beams and a 50 GeV electron beam from an Energy Recovery Linac. While initially foreseen [1] for concurrent electron-hadron and hadron-hadron operation, a standalone electron-hadron operation phase has been proposed [2] in view of the current LHC schedule. Thus, the...
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Dr Matteo Cerutti (CEA Paris-Saclay)05/05/2026, 12:20WG6 Current Upgrades and Future ExperimentsFlash talk
We are moving toward a new generation of global analyses of unpolarized transverse-momentumโdependent distributions (TMDs) based on neural-network parameterizations, extending to SIDIS a framework previously tested using DrellโYan data only.
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At present, global fits with state-of-the-art perturbative accuracy and flavor dependence are available, although still based on traditional... -
Wan Chang (Nanyang Normal University)05/05/2026, 14:30WG6 Current Upgrades and Future ExperimentsTalk
The upcoming Electron-Ion Collider (EIC) will address several outstanding puzzles in modern nuclear physics. Key questionsโsuch as the partonic structure of nucleons and nuclei and the origin of their mass and spinโcan be explored through high-energy electronโproton and electronโnucleus collisions. To maximize its scientific reach, the EIC community has advocated for the addition of a second...
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Simone Vallarino (Istituto Nazionale di Fisica Nucleare)05/05/2026, 14:50WG6 Current Upgrades and Future ExperimentsTalk
The dual-radiator Ring Imaging Cherenkov detector (dRICH) is a key component of the particle identification (PID) system of the ePIC experiment at the future Electron-Ion Collider (EIC). The detector is designed to provide efficient separation of charged hadrons over a broad momentum range in the forward (1.5 < $\eta$ < 3.5) hadron-going region, enabling precision studies of nucleon and...
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Tomasz Mrรณz (Institute of Nuclear Physics, Polish Academy of Sciences)05/05/2026, 15:10WG6 Current Upgrades and Future ExperimentsTalk
A key focus of the physics program at the LHC is the study of head-on proton-proton collisions. However, an important class of physics can be studied for cases where the protons narrowly miss one another and remain intact. In such cases, the electromagnetic fields surrounding the protons can interact producing high-energy photon-photon collisions. Alternatively, interactions mediated by the...
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Michael Pitt (CERN)05/05/2026, 15:30WG6 Current Upgrades and Future ExperimentsTalk
For LHC Run 4, CMS has planned substantial upgrades to enhance its forward-physics capabilities in protonโproton and heavy-ion collisions. To exploit the full potential of the HL-LHC datasets, a radiation-hard Zero-Degree Calorimeter and an upgraded Precision Proton Spectrometer, with new optics and improved high-pileup performance, have been designed. Following successful tests during Run 3...
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Fabrizio Ferro (Istituto Nazionale di Fisica Nucleare)05/05/2026, 15:50WG6 Current Upgrades and Future ExperimentsTalk
The CMS experiment has been successfully operating the Precision Proton Spectrometer (PPS) since 2016 to study central exclusive production (CEP) events, ppโpXp, at the LHC via the detection of the surviving protons. CEP allows unique sensitivity to physics beyond the standard model, e.g. in the search for anomalous quartic gauge couplings, axion-like particles, and in general new resonances....
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Licheng Zhang05/05/2026, 16:45WG6 Current Upgrades and Future ExperimentsTalk
In the upgrade of the CMS apparatus for the HL-LHC, an innovative MIP Timing Detector (MTD) will provide unprecedented time measurement capabilities for charged particles. Different sensor technologies will be used in its barrel section, made of LYSO:Ce crystals read by SiPMs, and its endcap, equipped with silicon low-gain avalanche diodes. In both cases, custom ASICs will provide the required...
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Vincent Hedberg (Lund University)05/05/2026, 17:05WG6 Current Upgrades and Future ExperimentsTalk
The LUCID-2 detector is the main luminometer of the ATLAS experiment and the only one able to provide a reliable luminosity determination in all beam configurations, luminosity ranges and at bunch-crossing level. During LHC Run-2 ATLAS has measured luminosity with a precision of 0.8%, the most precise ever among all experiments running at a hadron collider. LUCID-2 is now providing ATLAS with...
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Hao Pang05/05/2026, 17:25WG6 Current Upgrades and Future ExperimentsTalk
The ATLAS experiment is currently preparing for an upgrade of the Inner Tracking for High-Luminosity LHC operation, scheduled to start in 2030. The radiation damage at the maximum integrated luminosity of 4000/fb implies integrated hadron fluencies over 2x1016neq/cm2 and tracking in a very dense environment call for a replacement of the existing Inner Detector. An all-silicon Inner Tracker...
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Prof. Andrea Bressan (Istituto Nazionale di Fisica Nucleare)05/05/2026, 17:45WG6 Current Upgrades and Future ExperimentsTalk
The AMBER experiment at CERN represents a next-generation fixed-target QCD facility designed to investigate the internal structure and dynamics of hadrons with unprecedented precision. In the middle of the data taking for the Phase-I program, AMBER presently focused on focused on antiproton production cross sections, high-precision determinations of the proton charge radius, and studies of...
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Sabrina Ciarlantini (Istituto Nazionale di Fisica Nucleare)05/05/2026, 18:05WG6 Current Upgrades and Future ExperimentsFlash talk
The future ElectronโIon Collider (EIC) will offer a unique opportunity to explore parton distributions
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inside nucleons and nuclei thanks to unprecedented luminosity, a wide range of energies,
a large choice of nuclear species, and polarization of both beams (in the case of light hadrons).
The electronโProtonโIon Collider (ePIC) detector will enable, among other performance goals, precise... -
Federico Battisti (Istituto Nazionale di Fisica Nucleare)06/05/2026, 09:00WG6 Current Upgrades and Future ExperimentsTalk
DUNE is a next-generation long-baseline neutrino experiment designed to measure all parameters governing neutrino oscillations within a single experimental framework. Achieving the precision required for these measurements demands stringent control of statistical uncertainties, which will be provided by a multi-component Near Detector (ND) complex.
The System for on-Axis Neutrino...
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258. Ongoing Development in a Proximity-Focusing RICH Detector for ePIC at the Electron-Ion ColliderJihee Kim (Brookhaven National Laboratory)06/05/2026, 09:20WG6 Current Upgrades and Future ExperimentsTalk
The ElectronโIon Collider at Brookhaven National Laboratory (BNL) will enable precision studies of the strong interaction in nucleons and nuclei. Its general-purpose detector, ePIC, is designed to support a broad physics program, which relies on robust particle identification capabilities. In the electron-going endcap, a proximity-focusing Ring Imaging Cherenkov detector (pfRICH) provides...
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Can Suslu (University of Michigan)06/05/2026, 09:40WG6 Current Upgrades and Future ExperimentsTalk
The Future Circular electronโpositron Collider (FCC-ee) will operate as a high-luminosity circular electronโpositron collider, providing precise measurements of the Z, W, and Higgs bosons, as well as the top quark. To fully exploit this environment, the inner tracker must reconstruct charged-particle trajectories with high precision across a wide momentum range while keeping the material...
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Jiajin Ge (University of Michigan (US))06/05/2026, 10:00WG6 Current Upgrades and Future ExperimentsTalk
The Future Circular electron-positron Collider (FCC-ee) will operate as a high-luminosity eโบeโป collider for precision studies of the Z, W, Higgs bosons, and top quark. Its goals include electroweak and Higgs precision tests, searches for physics beyond the Standard Model, and providing inputs for future hadron collider programs.
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A high-performance muon detector at the FCC-ee is crucial for... -
Laurent Forthomme (AGH University Krakรณw)06/05/2026, 10:20WG6 Current Upgrades and Future ExperimentsFlash talk
An overview of the prospects for unique studies of photon-photon interactions at LHeC will be presented. Profiting from the clean experimental environment and high luminosity at the LHeC, it will be possible to conduct stringent tests of electroweak interactions as well as meaningful searches for possible deviations from Standard Model. In particular, the cases of two-photon production of...
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Timoty Duong (CNRS - LAPP)06/05/2026, 11:00WG6 Current Upgrades and Future ExperimentsTalk
A number of flagship analyses in the ATLAS experiment rely on electron and photon triggers to efficiently record events of interest. During Run 3, these triggers have undergone significant developments, including the integration of advanced machine learning techniques, to achieve high efficiency while controlling background rates and operating within the constraints of the trigger hardware....
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Kazuki Todome06/05/2026, 11:20WG6 Current Upgrades and Future ExperimentsTalk
The ATLAS experiment at CERN is constructing upgraded system for the "High Luminosity LHC", with collisions due to start in 2030. In order to deliver an order of magnitude more data than previous LHC runs, 14 TeV protons will collide with an instantaneous luminosity of up to 7.5 x 10e34 cm^-2s^-1, resulting in much higher pileup and data rates than the current experiment was designed to...
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Achille Stocchi06/05/2026, 11:40WG6 Current Upgrades and Future ExperimentsTalk
The development of Energy Recovery Linacs is one of the objectives of the ECFA Accelerator R&D Roadmap established in the 2021 European Strategy for Particle Physics, and in the Recommendations by the European Strategy Group for the 2026 Update [1]. In this talk we present the development of ERLs with a focus on their application to high-energy accelerators. We discuss the present status and...
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Domenico Colella (INFN and University of Bari)06/05/2026, 12:00WG6 Current Upgrades and Future ExperimentsTalk
At the BNL Electron Ion Collider, the ePIC experiment will investigate a broad and rich QCD and Nucleon physics program, requiring novel and high-performance detectors. An example is its Silicon Vertex Tracker (SVT). It has several innovative aspects, starting from sensors to the mechanics. It consists of three sub-systems: Inner Barrel (IB), Outer Barrel (OB), and Disks. The common innovative...
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Prof. Daniel Tapia Takaki (The University of Kansas)06/05/2026, 12:20WG6 Current Upgrades and Future ExperimentsFlash talk
We present quantum tomography (QT) as a new framework for uncovering the internal structure of hadrons in high-energy collisions. Inspired by techniques from quantum state reconstruction, QT provides a data-driven approach for reconstructing higher-dimensional features of hadronic structure directly from lower-dimensional experimental data, without reliance on specific models.
We illustrate...
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Viktoriia Lysenko (Czech Technical University in Prague (CZ))06/05/2026, 12:28WG6 Current Upgrades and Future ExperimentsFlash talk
The Time-of-Flight (ToF) detectors in the ATLAS Forward Proton (AFP) system are used to measure the primary vertex z-position of the pp -> pXp processes using the arrival times of the two intact final state protons. During LHC Long Shutdown 2, the ToF detector underwent major upgrades in electronics, optics, and mechanics, expected to provide a substantial improvement in detection efficiency....
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Davide Giordano (Istituto Nazionale di Fisica Nucleare)06/05/2026, 14:30WG6 Current Upgrades and Future ExperimentsTalk
Precise knowledge of inclusive antiproton production cross sections is essential for interpreting high-precision cosmic-ray antiproton measurements (e.g. AMS-02) and for maximizing the sensitivity of indirect searches for dark matter. In the energy domain where most secondary antiprotons are produced in the Galaxy, interactions involving protons and helium dominate, yet accelerator...
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Katarzyna Wichmann (DESY)06/05/2026, 14:50WG6 Current Upgrades and Future ExperimentsTalk
The HERAPDF2.0 parton densities represent the current state of the art in determining the longitudinal structure of the proton when using data from Deep Inelastic Scattering (DIS) experiments alone. Their precision is at the few percent level at intermediate Bjorken-x, but deteriorates fast for x-->1 and also below x~10$^{-3}$. The high x region in particular can also be constrained using LHC...
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Nรฉstor Armesto (Universidade de Santiago de Compostela)06/05/2026, 15:10WG6 Current Upgrades and Future ExperimentsTalk
The Large Hadron electron Collider (LHeC) is the proposal to deliver electron-proton/nucleus collisions at CERN using the LHC beams and a 50 GeV electron beam from an Energy Recovery Linac. While initially foreseen [1] for concurrent electron-hadron and hadron-hadron operation, a standalone electron-hadron operation phase has been proposed [2] in view of the current LHC schedule. Thus, the...
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Mr Leyun Gao (Peking University)06/05/2026, 15:30WG6 Current Upgrades and Future ExperimentsTalk
We propose here a set of new proposals and some prelimenary experimental results involving probing and knocking with muons (PKMu). There is a wealth of rich physics to explore with GeV muon beams either from dedicated beam or cosmic sourse. Examples include but not limited to: muon scattering can occur at large angles, providing evidence of potential muon-philic dark matter or dark mediator...
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Lorenzo Polizzi (Istituto Nazionale di Fisica Nucleare)06/05/2026, 15:50WG6 Current Upgrades and Future ExperimentsFlash talk
Particle Identification (PID) is a key requirement for the physics program of the future Electron-Ion Collider (EIC), particularly for Deep Inelastic Scattering (DIS) and Semi-Inclusive DIS (SIDIS) measurements. The EIC will provide unprecedented luminosity and wide kinematic coverage, enabling high-precision studies of the three-dimensional structure of nucleons through multi-differential...
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Gabriella Gaudio (Istituto Nazionale di Fisica Nucleare)06/05/2026, 16:30WG6 Current Upgrades and Future ExperimentsTalk
With the start of the Long Shutdown 3 (LS3) of the LHC in July 2026, lasting nearly four years, ATLAS will enter the implementation phase of the major detector upgrades required for High-Luminosity LHC operation. The Muon Spectrometer will undergo a substantial transformation to meet the stringent operational demands imposed by the increased luminosity, trigger rates, and radiation levels...
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Jinlong Zhang (Shandong University), Wenbiao Yan (USTC), Prof. Xingtao Huang (Shandong University)06/05/2026, 16:50WG6 Current Upgrades and Future ExperimentsTalk
The Super Tau-Charm Facility (STCF) is a new-generation high-luminosity electron-positron collider proposed in China. It will operate in an energy range of 2-7 GeV with a luminosity higher than 0.5*10^35 cm^2 s^-1 at 4 GeV. The STCF can produce a large number of hadrons and tau leptons in a clean environment, serving as a unique and powerful tool for studying how quarks form hadrons to...
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Lorenzo Sestini (Istituto Nazionale di Fisica Nucleare)06/05/2026, 17:10WG6 Current Upgrades and Future ExperimentsTalk
The full exploitation of the physics potential of a multi-TeV muon collider critically depends on the detectorโs ability to cope with unprecedented levels of machine-induced backgrounds. This contribution introduces the MUSIC (MUon System for Interesting Collisions) detector concept and presents its expected performance in the context of โs = 10 TeV muonโantimuon collisions. MUSIC is...
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Sandro Geminiani (Istituto Nazionale di Fisica Nucleare)06/05/2026, 17:30WG6 Current Upgrades and Future ExperimentsFlash talk
The investigation of the nucleon structure is one of the primary goals of the ePIC experiment at the future ElectronโIon Collider. Considering both inclusive and exclusive processes, ePIC will access unprecedented ranges in Q$^2$ and Bjorken x. The dual-radiator RICH (dRICH) detector is a key component of the ePIC Particle Identification (PID) system and is essential for the reconstruction of...
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Charles Hughes (Lehigh University)07/05/2026, 09:00WG6 Current Upgrades and Future ExperimentsTalk
The sPHENIX experiment is a next-generation collider detector at RHIC designed for rare jet and heavy flavor probes of the Quark-Gluon Plasma and polarized proton-proton collisions. sPHENIX includes large-acceptance electromagnetic and hadronic calorimetry, the latter of which for the first time at RHIC, as well as a four-subsystem precision tracking system comprising a MAPS-based silicon...
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Enrico Bothmann (CERN)07/05/2026, 09:20WG6 Current Upgrades and Future ExperimentsTalk
Significant computing resources are devoted to event generation for the Large Hadron Collider (LHC), with projected demands for the High-Luminosity LHC phases expected to increase substantially and go beyond the forecasted pledged resources. At the same time, High Performance Compute (HPC) clusters provide major compute resources which in many cases rely on the deployed GPU...
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Hector Almanzor Chinchay Espino (University of New Hampshire)07/05/2026, 09:40WG6 Current Upgrades and Future ExperimentsTalk
The deuteron has a unique feature called tensor polarization, which cannot be obtained by simply combining of the proton and neutron properties and provides access to new tensor structure functions that reflect genuine nuclear effects arising from QCD dynamics, showing how quarks and gluons are modified by binding and spin correlations in a spin-1 nucleus. These functions provide a...
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Stefano Gramigna (Istituto Nazionale di Fisica Nucleare)07/05/2026, 10:00WG6 Current Upgrades and Future ExperimentsTalk
The ePIC experiment will be the first detector of the future Electron-Ion Collider (EIC), at Brookhaven National Laboratory (BNL) by 2035.
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The collisions between EICโs polarized beams will allow us to probe nuclei and nucleons with unprecedented precision, and thus to gain access to some of the main open issues in nuclear physics: the source of the proton spin, the origin of mass in nucleons,... -
Imran Raghib Xxx (Istituto Nazionale di Fisica Nucleare)07/05/2026, 10:20WG6 Current Upgrades and Future ExperimentsFlash talk
This contribution explores the physics potential of a future muon collider operating at a center-of-mass energy of โs = 10 TeV for precision studies in the Higgs sector. Using a detailed detector simulation that incorporates the dominant sources of machine-induced background, the expected sensitivity to key Higgs processes is evaluated. These include measurements of the production cross...
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Lauren Kasper (Vanderbilt University)07/05/2026, 11:00WG6 Current Upgrades and Future ExperimentsTalk
Precision electron identification is a critical challenge in electro/photo-production and deep-inelastic scattering experiments with large hadronic backgrounds. The GlueX-III experiment, planned to run at Jefferson Lab for 2027-2028, will significantly enhance the laboratoryโs capability to explore charmonium production near threshold and related aspects of Quantum Chromodynamics in the...
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Martina Cucinotta07/05/2026, 11:20WG6 Current Upgrades and Future ExperimentsFlash talk
The Tile Calorimeter (TileCal) is a sampling hadronic calorimeter covering the central region of the ATLAS experiment, with steel as absorber and plastic scintillators as active medium. The scintillators are read-out by the wavelength shifting fibres coupled to the photomultiplier tubes (PMTs). The analogue signals from the PMTs are amplified, shaped, digitized by sampling the signal every 25...
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Sonakshi Ahuja (IFIC-CSIC (UV))07/05/2026, 11:28WG6 Current Upgrades and Future ExperimentsTalk
The Tile Calorimeter (TileCal) is a sampling hadronic calorimeter that covers the central region of the ATLAS experiment at the Large Hadron Collider (LHC). The LHC will undergo a series of upgrades leading to the High-Luminosity LHC (HL-LHC). The TileCal Phase-II Upgrade will accommodate the detector readout electronics to meet the challenges of a 1 MHz trigger rate, higher ambient radiation...
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Ludovica Rainero07/05/2026, 11:48WG6 Current Upgrades and Future ExperimentsFlash talk
Silicon sensors are widely employed in modern physics experiments in both tracking detectors and photo-detection systems. Silicon photomultipliers (SiPMs) are increasingly adopted for their excellent photon detection efficiency, fast timing, scalability, and insensitivity to magnetic fields. A first application of SiPMs for single-photon detection in a collider experiment will be for the...
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