Conveners
Detectors for Future Facilities, R&D, Novel Techniques: Detectors for Future Facilities, R&D, Novel Techniques
- David Attiรฉ (CEA/Irfu - Universitรฉ Paris-Saclay (FR))
- Tanaz Mohayai (Indiana University)
Detectors for Future Facilities, R&D, Novel Techniques: Detectors for Future Facilities, R&D, Novel Techniques
- David Attiรฉ (CEA/Irfu - Universitรฉ Paris-Saclay (FR))
- Tanaz Mohayai (Indiana University)
Detectors for Future Facilities, R&D, Novel Techniques: Detectors for Future Facilities, R&D, Novel Techniques
- Jana Faltova (Charles University (CZ))
- Gabriella Gaudio (INFN-Pavia)
Detectors for Future Facilities, R&D, Novel Techniques: Detectors for Future Facilities, R&D, Novel Techniques
- Gabriella Gaudio (INFN-Pavia)
- Jana Faltova (Charles University (CZ))
Detectors for Future Facilities, R&D, Novel Techniques: Detectors for Future Facilities, R&D, Novel Techniques
- Tanaz Mohayai (Indiana University)
- David Attiรฉ (CEA/Irfu - Universitรฉ Paris-Saclay (FR))
Detectors for Future Facilities, R&D, Novel Techniques: Detectors for Future Facilities, R&D, Novel Techniques
- David Attiรฉ (CEA/Irfu - Universitรฉ Paris-Saclay (FR))
- Tanaz Mohayai (Indiana University)
Detectors for Future Facilities, R&D, Novel Techniques: Detectors for Future Facilities, R&D, Novel Techniques
- Gabriella Gaudio (INFN-Pavia)
- Jana Faltova (Charles University (CZ))
Detectors for Future Facilities, R&D, Novel Techniques: Detectors for Future Facilities, R&D, Novel Techniques
- Jana Faltova (Charles University (CZ))
- Gabriella Gaudio (INFN-Pavia)
Detectors for Future Facilities, R&D, Novel Techniques: Detectors for Future Facilities, R&D, Novel Techniques
- Anna Macchiolo (University of Zurich (CH))
- Jana Faltova (Charles University (CZ))
Detectors for Future Facilities, R&D, Novel Techniques: Detectors for Future Facilities, R&D, Novel Techniques
- Anna Macchiolo (University of Zurich (CH))
- David Attiรฉ (CEA/Irfu - Universitรฉ Paris-Saclay (FR))
Detectors for Future Facilities, R&D, Novel Techniques: Detectors for Future Facilities, R&D, Novel Techniques
- Gabriella Gaudio (INFN-Pavia)
- Jana Faltova (Charles University (CZ))
Detectors for Future Facilities, R&D, Novel Techniques: Detectors for Future Facilities, R&D, Novel Techniques
- Anna Macchiolo (University of Zurich (CH))
- Gabriella Gaudio (INFN-Pavia)
We shall introduce the novel [LiquidO][1] technology, relying for the first time on light detection in โopaqueโ media. This way, LiquidO enables sub-atomic particle event-wise imaging, so event topology, which, once combined with fast timing, the combined system enables powerful particle-ID even at MeV energies. The development is led by the homonymous international academic collaboration with...
Traditionally used for photon detection, superconducting Transition-edge Sensors (TESs) take on a new role in the PTOLEMY project as we investigate their application for electron detection to establish the existence of relic neutrinos. PTOLEMY requires TESs with 50 meV energy resolution for discerning electrons in the tens of eV range. Our focus is on exploring TES detectors' response to...
The Jiangmen Underground Neutrino Observatory (JUNO), a 20-kiloton liquid scintillator detector equipped with more than 43 thousand photomultiplier tubes, is under construction currently, aiming primarily to determine the neutrino mass ordering by detecting reactor electron anti-neutrinos. To achieve the physics goal, the detector energy resolution should be better than 3% at 1 MeV and the...
Charged particles in Liquid Argon (LAr) produce light in the Vacuum Ultraviolet range, challenging traditional optics. Current LAr particle detectors rely on drift electron signals for readout, but this method is not efficient in high event-rate scenarios. New readout methods are needed for scintillation light detection in LAr. The Near Detector complex (ND) of DUNE (Deep Underground Neutrino...
The Deep Underground Neutrino Experiment (DUNE) is a next-generation long-baseline neutrino oscillation experiment with a primary physics goal of observing neutrino and antineutrino oscillation patterns to precisely measure the parameters governing long-baseline neutrino oscillation in a single experiment, and to test the three-flavor paradigm. DUNE is being built with the exquisite imaging...
The T2K neutrino experiment in Japan obtained a first indication of CP violation in neutrino oscillations. To obtain better sensitivity, T2K upgraded the near detector. A novel 3D highly granular scintillator detector called SuperFGD of a mass of about 2 tons will be functioning as a fully-active neutrino target and a 4\pi detector of charged particles from neutrino interactions. ...
We have studied saturated LiCl water solution for the neutrino detection for Jinping Neutrino Experiment. The solution takes advantage of the high electron-neutrino charge-current interaction cross-section with Li-7, high natural abundance of Li-7, and the high solubility of LiCl. We have achieved a 50-m long attenuation length at 430 nm. The solution is good in studying energy-dependent solar...
Large scale noble element time projection chambers (TPC's) play a central role in many HEP experiments. Future planned experimental programs using noble element TPC's aim to construct very large detectors, up to the multi-kiloton scale. Pixel based 3D readout offers the opportunity to realize such robust large scale noble element TPC's by recording the information from ionization events in an...
Microchannel plate photomultiplier tubes working in photon-counting
mode to detect extremely low number of photons see adoption at the
future large liquid-based neutrino detectors. By coating materials of
high secondary electron yield by the atomic layer deposition at the
end face of the microchannel plates, collection efficiencies of
photo-electrons are pushed to 100%. That, however,...
The Water Cherenkov Test Experiment (WCTE) will be installed in CERN's recently upgraded T9 โTest Beamโ Area in Summer 2024. It has three goals: to prototype photosensor and calibration systems for Hyper-Kamiokande, to develop new calibration and reconstruction methods for water Cherenkov detectors and to measure lepton and hadron scattering on Oxygen.
The collaboration performed a...
The Q-Pix concept is a continuously integrating low-power charge-sensitive amplifier (CSA) viewed by a Schmitt trigger. When the trigger threshold is met, the comparator initiates a โresetโ transition and returns the CSA circuitry to a stable baseline. The reset time is captured in a 32-bit clock value register, buffers the cycle and then begins again. The time difference between one clock...
The Super Tau-Charm Facility (STCF) is a high-luminosity electron-positron collider proposed in China. It will operate in an energy range of 2-7GeV with a peak luminosity higher than 0.5*10^35 cm^2 s^-1. The STCF physics goals require efficient and precise reconstruction of exclusive final states produced in the e+e- collisions. This places stringent demands on the performance of the STCF...
The FORMOSA detector at the proposed Forward Physics Facility is a scintillator-based experiment designed to search for signatures of "millicharged particles" produced in the forward region of the LHC. This talk will cover the challenges and impressive sensitivity of the FORMOSA detector, expected to extend current limits by over an order of magnitude. A pathfinder experiment, the FORMOSA...
A storage ring proton electric dipole moment (EDM) experiment (pEDM) would be the first direct search for a proton EDM and would improve on the current (indirect) limit by 5 orders of magnitude. It would surpass the current sensitivity (set by neutron EDM experiments) to QCD CP-violation by 3 orders of magnitude, making it potentially the most promising effort to solve the strong CP problem,...
The proposed LHeC and the FCC in electron-hadron mode will make possible the study of DIS in the TeV regime. These facilities will provide electron-proton (nucleus) collisions with per nucleon instantaneous luminosities around $10^{34}$($10^{33}$) cm$^{โ2}$s$^{โ1}$ by colliding a 50-60 GeV electron beam from a highly innovative energy-recovery linac system with the LHC/FCC hadron beams,...
SUB-Millicharge ExperimenT (SUBMET) searches for sub-millicharged particles from the proton fixed-target collisions at J-PARC. The detector, installed 280 m from the target, is composed of two layers of stacked scintillator bars and PMTs. The main background is expected to be a random coincidence between the two layers due to dark counts in PMTs and the radiation from the surrounding...
The COmpact DEtector for EXotics at LHCb (CODEX-b) is a particle physics detector dedicated to displaced decays of exotic long-lived particles (LLPs), compelling signatures of dark sectors Beyond the Standard Model, which arise in theories containing a hierarchy of scales and small parameters. CODEX-b is planned to be installed near the LHCb interaction point and makes use of fast RPCs, which...
It is well known that inside an oriented crystal a strong acceleration of the e.m. shower development is observed, if a high energy ($> 10$ GeV) e$^\pm$ or photon impinges within 0.1$^\circ$ from one of its crystallographic axes. This phenomenon can be exploited to develop novel ultra-compact calorimeters, capable of containing the energy of the incident particles as efficiently as much...
LUXE experiment: For the measurements of positrons, a tracker and an
electromagnetic calorimeter are foreseen. Since the expected number of positrons
varies over five-orders of magnitude, and has to be measured over a widely spread
low energy background, the calorimeter must be compact and finely segmented. The
concept of a sandwich calorimeter made of tungsten absorber plates...
A muon collider is being proposed as a next generation facility. The incredible physics potential comes at the cost of technological challenges due to the short muon lifetime. The beam-induced background, produced by the muon decays in the beams and subsequent interactions, may limit the detector performance. A diffused flux of photons and neutrons passes through the calorimeter, which thus...
As one of the future collider experiments, CEPC aims to achieve extremely precise measurements of Standard Model particles. This necessitates a high granularity imaging calorimeter system and a dedicated Particle Flow reconstruction. In CEPCโs reference detector๏ผ a homogeneous crystal ECAL is proposed, offering optimal EM resolution, a low photon energy threshold and a promising jet energy...
The Mu2e experiment will search for the charged-lepton flavor violating conversion of muons into electrons in the field of a nucleus, planning to reach a single event sensitivity of 3x10$^{โ17}$. The conversion electron has a monoenergetic signature at ~105 MeV and is identified by a high-resolution tracker and an electromagnetic calorimeter (EMC). The EMC is composed of 1348 CsI crystals,...
The commissioning work of a Cosmic Muon Veto detector (CMVD)
on top of the mini-ICAL detector at Madurai, India is continued using extruded plastic scintillators, embedded
WLS fibers and the SiPM as a photo-transducer. The CMVD is being built to study the
feasibility of a cosmic muon veto for a shallow-depth neutrino experiment. An experimental setup was
designed to characterise...
To achieve the physics goals of the Circular Electron Positron Collider (CEPC), a tracking system combining a silicon tracker and a drift chamber is proposed. The drift chamber could provide excellent particle identification (PID) performance with cluster counting (dN/dx) technique. By measuring the number of primary ionizations along the particle trajectory, the dN/dx will significantly...
A large, worldwide community is working to realize physics program of the International Linear Collider (ILC).The International Large Detector (ILD) is one of the detector concepts. The ILD tracking system consists of a Si vertex detector and a large volume Time Projection Chamber (TPC), all embedded in a 3.5 T solenoidal field. An extensive research and development program has been carried...
A 10 TeV muon collider is a promising machine for the high energy frontier. However, the beam-induced background (BIB), originated from the interaction of leptons from muon decay with the machine, represents a big challenge. To deal with its high occupancy, new reconstruction algorithms and high performance detectors are required.
In this context, the studies concerning the muon spectrometer...
The Deep Underground Neutrino Experiment (DUNE) is a next-generation international experiment that aims to make high-precision measurements of neutrino mixing parameters. DUNE will include a multiple-component near detector (ND) complex that will be located on the LBNF beamline at Fermilab in Batavia, IL. During DUNE Phase II, there will exist a high-pressure gaseous argon TPC surrounded by a...
The NEWS-G experiment, located at SNO lab, aims for direct detection of WIMPs via nuclear recoils using Spherical Proportional Counter (SPC). Accurate measurement of the recoil energy requires knowledge of quenching factor (QF). Our past measurements were performed in Ne+CH4 gas mixture at 2 bar. Next, we intend to measure QF for different gas mixtures with different detector parameters. To...
The IDEA detector, designed for future e+e- colliders like FCC-ee or CEPC, features an innovative design with a central tracker enclosed in a superconducting solenoidal magnet, a preshower system, and a dual readout calorimeter. Positioned within the iron yoke are three muon detector stations. The preshower and muon detector employ ฮผ-RWELL technology, inheriting the best characteristics of GEM...
The Circular Electron Positron Collider accelerator TDR, as a Higgs and high luminosity Z factory, has been released in 2023. The baseline design of a detector concept consists of a large 3D tracking system, which is a high precision (about 100ฮผm) spatial resolution Time Projection Chamber (TPC) detector as the main track embedded in a 3.0T solenoid field, especially for the accelerator...
The extension of the BESIII experiment (IHEP, Beijing) until 2030 has triggered a program to improve the accelerator and the detector. In particular, it is proposed to replace the current inner drift chamber with a cylindrical GEM detector.
The inner CGEM tracker consists of three coaxial layers of triple GEM and is expected to restore efficiency, improve z-determination and secondary vertex...
A new detector concept optimizes MPGD geometry for low-cost and large-area applications while keeping the same performance. The base element, a ยตRtube, is a cylindrically shaped ยตRWELL of 0.9cm radius, which works as an amplification stage and readout. The external sleeve is 18 cm in diameter and accommodates the cathode, completing a radial tubular TPC having a small internal surface used for...
The near detector of T2K experiment is undergoing a major upgrade. A new Time Projection Chambers have been constructed, based on the innovative resistive Micromegas technology. A resistive layer is deposited onto the segmented anode in order to spread the charge onto several adjacent pads. This way, the spatial resolution for a given segmentation is improved. The results of the first detailed...
Recent advancements in High Energy Physics experiments demand innovative particle detectors capable of operating efficiently in high-background and high-radiation environments. This necessitates R&D in MPGD technology, targeting particle fluxes up to 10 MHz/cm2. Our project focuses on single-stage amplification resistive Micromegas, addressing challenges such as miniaturization of readout...
While the ionization process by charged particles (dE/dx) is commonly used for particle identification, uncertainties in total energy deposition limit particle separation capabilities. To overcome this limitation, the cluster counting technique (dN/dx) takes advantage of the Poisson nature of primary ionization, providing a statistically robust method for inferring mass information. This...
The Forward Physics Facility (FPF), is a proposed underground cavern that will greatly expand the LHCโs physics potential in the HL-LHC era. The FPF will house several experiments, including FASER2, FASERnu2, Advanced SND, FORMOSA, and FLArE. These experiments will detect thousands of TeV-energy neutrinos per day, with far-reaching implications for detecting BSM physics in neutrinos, QCD...
The CERN test beam lines and experimental areas serve over 200 test beams and experiments per year with more than 2000 users and are considered one of the most important facilities for detector R&D worldwide. Both the East and North Areas host several experimental areas and are in the process of extensive renovation to ensure the availability of test beams for the coming decades. We present...
We present the current status of the R&D performed for the ePIC dual-radiator RICH (dRICH) detector at the future Electron-Ion Collider (EIC). The dRICH will be equipped with silicon photomultipliers (SiPM), the first large-scale application of SiPM for single-photon detection in HEP. Special focus will be given to the beam test performed with the prototype SiPM optical readout, consisting of...
The dMu/DT collaboration plans to measure the $\mu$CF rate and sticking fraction at temperatures ~10$^3$K and pressure ~10$^5$ bar using a diamond anvil cell with D-T mixture. In parallel, physics processes related to formation, transport, transfer, and other deexcitations of muonic atoms, as well as $\mu$CF and reactivation of muons to the fusion cycles are being modeled in GEANT4. Although...
A major obstacle for detection of meV-scale rare events is demonstrating sufficiently low energy detection thresholds in order to detect recoils from light dark matter particles. We have developed a method of cryogenic optical beam steering that can be used to generate O(ฮผs) pulses of small numbers of photons over the energy range of 0.1 - 5eV and deliver them to any location on the surface of...
Organic scintillators detect ionizing radiation and are crucial in Particle and Nuclear Physics research. This study aims to enhance scintillator properties for next-gen experiments, focusing on Polyethylene Terephthalate (PET) and Polyethylene Naphthalate (PEN) as promising alternatives for emitting blue light when exposed to radiation. We manufacture, PET, PEN, and PET:PEN blend scintillator...
We present a compact scintillating fiber timing detector developed for the Mu3e experiment. Mu3e is a novel experiment for the search of the charged lepton flavor violating neutrinoless muon decay mu -> eee. Mu3e is about to start taking data at PSI using the world's most intense continuous surface muon beam. The scintillating fiber detector is formed by staggering three layers of 250 um...
In this report, we present the development of a new type of particle identification (PID) detector, the DIRC-like time-of-flight (DTOF). The DTOF detector uses the arrival time of Cherenkov photons to achieve better PID performance than a classic TOF detector with the same time resolution. It features fast response, a wide momentum range of PID, compact structure, ease of operation and...
The LGAD could be used as the time of flight detector for the Chinese electron-positron collider (CEPC). As suggested by the CEPC board, the time of flight is urgent for the flavor physics in CEPC, especially for the k/p and k/pi separation in the low-energy part. Two designs based on LGAD technology have been studied for the CEPC. One is pure ToF with 50 ps time resolution and would be...
The ePIC detector is specifically designed to address the entire physics program
at the Electron-Ion Collider (EIC). It consists of several sub-detectors, each tailored
to address specific physics channels. One of the key sub-systems of ePIC is
the dual-radiator Ring Imaging Cherenkov (dRICH) detector, which is a highmomentum
particle-identification system located in the hadronic end-cap....
3D granularity plastic scintillator detectors combine particle tracking, calorimetry and sub-ns time resolution. Future detectors will aim to larger volumes and finer segmentation, making the manufacturing and the assembly prohibitive. The 3DET is developing additive manufacturing of plastic scintillator, opening the door to large-scale production of 3D-segmented detectors. A monolithic...
Axions in the mass range of tens to hundreds of micro-electron volts represent a promising dark matter candidate. Traditional cavity haloscopes represent a sensitive experimental configuration for probing low axion mass ranges, corresponding to frequencies up to a few GHz. However, the scaling of these cavity detectors to higher frequencies proves impractical due to limitations imposed by the...
Future collider experiments represent a frontier in particle physic, and tracking and particle identification (PID) are crucial aspects for these experiments. In this contribution, innovations in detector technologies, such as high-resolution silicon detectors and ultra light drift chambers with PID capabilities, as proposed for the IDEA detector at Future Circular Collider (FCC), are...
In the passive CMOS Strips Project, strip sensors were designed by a collaboration of German institutes and produced at LFoundry in 150 nm technology. Up to five individual reticules were connected by stitching at the foundry in order to obtain the typical strip lengths required for the LHC Phase-II upgrade of ATLAS or CMS trackers. The sensors were tested in a probe station and characterised...
Detectors at future high energy colliders will face enormous technical challenges. Disentangling the unprecedented numbers of particles expected in each event will require highly granular silicon pixel detectors with billions of readout channels. With event rates as high as 40 MHz, these detectors will generate petabytes of data per second. To enable discovery within strict bandwidth and...
Semiconductor hybrid pixel detectors with Timepix3 chips developed by Medipix collaboration at CERN can simultaneously measure deposited energy and time of arrival of individual particle hits in all 256 x 256 pixels with 55 ยตm pitch size. Their nanosecond temporal resolution was exploited to perform characterization of the ultra-high dose-per-pulse electron beam from a linear accelerator with...
In this study, high-energy Carbon-ion and proton beams produced in an accelerator were used. The Minipix Sprinter, a hybrid semiconductor pixel detector with novel operation and configuration customized for highly energetic particles was positioned in the primary beam for spectral and component characterization of individual particles. This detector has a demonstrated quantum-imaging...
Future collider experiments, operating at exceptionally high instantaneous luminosities, will require tracking detectors with space and time resolutions of a tenth of microns and a tenth of picoseconds, to properly perform tracks and vertices reconstruction. Several technologies have been explored, with the 3D-trench silicon pixel developed by the INFN TimeSPOT collaboration emerging as one of...
The Circular Electron Positron Collider (CEPC) introduces new challenges for the vertex detector in terms of material budget, spatial resolution, readout speed, and power consumption. A Monolithic Active Pixel Sensor (TaichuPix) has been developed for CEPC.
The baseline vertex detector is designed with a three double-layers barrel structure. This structure aims to minimize particle...
The Circular Electron Positron Collider (CEPC) is a proposed future Higgs and Z factory. To achieve an excellent momentum resolution for the precision measurements, the tracking system has to be covered by sensors with good spatial resolution and low material budget, while keeping cost-effective for a large sensitive area. High-Voltage CMOS (HVCMOS) is a promising technology option. In this...
The CERN proposed $e^+e^-$ Future Circular Collider (FCC-ee) is designed as an electroweak, flavour, Higgs and top factory with unprecedented luminosities. Many measurements at the FCC-ee will rely on the precise determination of the vertices, measured by dedicated vertex detectors.
All vertex detector designs use Monolithic Active Pixel Sensors (MAPS) with a single-hit resolution of โ3 ยตm...
The IDEA detector concept has been proposed for experiments future high-energy electron-positron colliders, covering a rich physics program from the Z to WW, H and ttbar. The tracking system of the IDEA detector concept consists of different subsystems: a vertex detector, an inner tracker, a drift chamber and a silicon wrapper between the drift chamber and the calorimeters. In this talk the...
High voltage CMOS pixel sensors are proposed to be used in future particle physics experiment. The ATLASPIX3 chip consists of 49000 pixels of dimension 50ฮผm x 150 ฮผm, realized in in TSI 180nm HVCMOS technology. It was the first full reticle size monolithic HVCMOS sensor suitable for construction of multi-chip modules and supporting serial powering through shunt-LDO regulators. The readout...
The hadron particle identification provided by the RICH system in LHCb over a momentum range of 2.6 โ 100 GeV/c has been a key element of the success of the experiment and will remain equally important for Upgrade II. A substantial improvement in the precision of the measurements of the space and time coordinates of the photons detected in the RICH detectors is needed to keep the excellent...
The forthcoming generation of $e^+e^-$ colliders demands advanced mass resolutions for the Higgs ($H$), $W$, and $Z$ bosons when decaying into jets. Dual-readout calorimetry achieves this by making use of two independent energy readings of the hadronic shower, leveraging the distinct $e/h$ factors of Cherenkov and scintillation light produced in a calorimeter equipped with two types of optical...
Two technological prototypes of high granularity calorimetry based on the scintillator option haveย been developed within the CALICE collaboration, including an electromagnetic calorimeter prototype (ScW-ECAL) and a hadron calorimeter prototype (AHCAL). The ScW-ECAL prototype is finely segmented with 6700 readout channels in total and consists of 32 longitudinal layers, each with scintillator...
The ALLEGRO is a detector concept optimized for precision measurements at the Future Circular Collider FCC-ee with a noble liquid calorimeter as an electromagnetic calorimeter. An extensive R&D program on the high granular noble liquid calorimeter suitable for advanced reconstruction techniques, e.g. machine learning and particle flow, has been launched. The fine segmentation of the...
A multi-Tev muon collider has been proposed as a powerful tool to investigate the Standard Model with unprecedented precision, after the High-Luminosity LHC era. However muons are not stable particles and it is of extremely important to develop technologies able to distinguish collisions from the background radiation induced by the beam itself. In this context, an innovative hadronic...
The precision measurements planned at future lepton colliders require excellent energy resolution especially in multi-jet events to successfully separate Z, W, and Higgs decays.
Over the past years the dual-readout method, which exploits complementary information from Scintillation and Cherenkov channels, has emerged as candidate to fulfil these requirements. Dedicated studies in simulation...
A pioneering fixed-target experiment is proposed for the LHC, aimed at measuring the dipole moments of charm baryons and potentially the tau lepton. Leveraging particle channeling and spin precession in bent crystals, the experiment offers a novel approach to probe these elusive properties. The detector system comprises a high-precision spectrometer for charged particle momentum measurement...
The future circular electron-positron collider (FCC-ee) is receiving much attention in the context of the FCC Feasibility Study currently in advanced progress described in the mid-term report, in preparation for the next EU strategy update. We present IDEA, a detector concept optimized for FCC-ee and composed of a vertex detector based on DMAPS, a very light drift chamber, a silicon wrapper, a...
The future circular electron-positron collider (FCCee) will be used to study the heaviest known particles with unprecedented precision, a goal that introduces multiple challenges in the detector design. One of the proposed experiments for FCCee is ALLEGRO, a general-purpose detector concept that is currently in its design and optimization phase. This contribution will introduce ALLEGROโs...
The International Large Detector (ILD) is a detector designed primarily for the International Linear Collider (ILC), a high-luminosity linear electron-positron collider with an initial center-of-mass energy of 250 GeV, extendable to 1 TeV or more. The ILD concept is based on particle flow for overall event reconstruction, which requires outstanding detector capabilities including superb...
The Hybrid Asymmetric Linear Higgs Factory (HALHF) proposes a shorter and cheaper design for a future Higgs factory. It reaches a $\sqrt{s}$ = 250 GeV using a 500 GeV electron beam accelerated by an electron-driven plasma wake-field, and a conventionally-accelerated 31 GeV positron beam. Assuming plasma acceleration R&D challenges are solved in a timely manner, the asymmetry of the collisions...
A 10 TeV muon collider is the ideal machine to explore the energy frontier. In addition to producing large samples of Standard Model particles, it has the potential to create new, possibly massive states, enabling a broad physics program that includes direct and indirect searches for new physics, precise Standard Model measurements in an unexplored energy regime, and significant advancements...
The Jiangmen Underground Neutrino Observatory (JUNO) is a multipurpose neutrino experiment under construction. The JUNO detector requires an unprecedent energy resolution of 3% at 1 MeV. It is composed of the central liquid scintillator detector, the water Cherenkov detector and the top tracker. The central detector is a ฯ35.4 m acrylic vessel supported by a stainless-steel structure,...
