The 2025 International Workshop on the High Energy Circular Electron Positron Collider

Session

Calorimetry

7 Nov 2025, 14:00

Dongfang (8th Floor)

Conveners

Calorimetry: 1

• Roberto Ferrari (INFN-PV)

Calorimetry: 2

• Yong Liu (Institute of High Energy Physics)

Calorimetry: 3

• Haijun Yang (Shanghai Jiao Tong University)

Calorimetry: 4

• Yong Liu (Institute of High Energy Physics)

Description

Zoom Link, ID:97990003364, Code:309122

Contribution list Timetable

96. CEPC Crystal Calorimeter: R&D status and highlights

Baohua Qi (IHEP)

07/11/2025, 14:00

13: Calorimeter

Talk

Precise jet energy reconstruction at the Circular Electron Positron Collider (CEPC) requires an advanced calorimetry system. A novel design for a particle-flow-oriented, high-granularity electromagnetic calorimeter (ECAL) has been proposed, featuring orthogonally layered crystal bars with silicon photomultiplier (SiPM) readout and a target energy resolution of $2\text{-}3\%/\sqrt{E...

92. Study on the Dynamic Range of SiPMs with High Pixel Densities

Zhiyu Zhao (TDLI/SJTU)

07/11/2025, 14:30

13: Calorimeter

Talk

The future Circular Electron-Positron Collider (CEPC) is a large-scale experimental facility, which aims to accurately measure the Higgs boson, electroweak physics and the top quark. For the detector system in CEPC, a highly granular crystal electromagnetic calorimeter is proposed to achieve an EM energy resolution of less than 3%. It is a homogenous structure with long crystal scintillator...

107. An SiW-ECAL for the Future Circular Colliders

Dr Vincent Boudry (Laboratoire Leprince-Ringuet, CNRS/IN2P3, École polytechnique)

07/11/2025, 15:00

13: Calorimeter

Talk

A highly granular Silicon-Tungsten ECAL is a way to obtain a high precision for a broad range of conditions and final states. An advanced model has been developed for the Linear Colliders. We will present the progress toward its adaptation for circular colliders: ASICs, timing, power, cooling, optimisation and final state reconstruction.

260. (Semi) Digital Hadron Calorimeter

Imad LAKTINEH (IPNL)

07/11/2025, 16:00

259. Glass Scintillator Hadron Calorimeter

Sen Qian (高能所)

07/11/2025, 16:30

127. Development of a new calorimetry with high-granularity, dual-readout and excellent timing -- Energy resolution evaluation by simulation --

Kamiyama Taiki (The University of Tokyo)

07/11/2025, 17:00

13: Calorimeter

Talk

Particle flow algorithm (PFA) and dual-readout are advanced calorimeter technologies proposed for precise jet energy measurements at future colliders. PFA requires highly granular calorimeters for efficient particle separation and optimal energy reconstruction depending on particle type. Dual-readout improves hadronic energy resolution by incorporating both scintillation and Cherenkov...

263. Dual-readout crystal calorimeter

Marco Lucchini (INFN & University of Milano-Bicocca)

07/11/2025, 17:30

Talk

261. Dual-readout fiber-based calorimeter: prototype developments and R&D program

Roberto Ferrari (INFN-PV) , Roberto Ferrari (INFN)

08/11/2025, 09:00

Talk

262. Test Beam Performance of a Dual-Readout Fiber Calorimeter Prototype

Seoyun Jang (Yonsei University (KR))

08/11/2025, 09:30

Talk

258. Testbeam studies of scintillator-based ECAL and HCAL prototypes

Hongbin Diao (University of Scinence and Technology of China)

08/11/2025, 10:00

264. CMS High-Granularity Calorimeter (HGCAL) Upgrade

Zirui Wang (复旦大学 Fudan University)

08/11/2025, 11:00

265. LHCb Calorimeters Upgrade

Hengne Li (South China Normal University)

08/11/2025, 11:30

323. Fully digital 110 nm CMOS SiPM for fast amplitude and timing measurements

Prof. Lodovico Ratti (INFN Pavia, University Pavia)

08/11/2025, 12:00

266. ALICE Forward Calorimeter (FoCAL) Upgrade (TBC)

103. Beam test results and uniformity studies of high-density glass scintillator tiles

Dejing Du (IHEP)

13: Calorimeter

Poster

The Future Circular Electron-Positron Collider (CEPC) demands advanced detector systems with excellent jet energy resolution. To address these requirements, a new high-granularity hadronic calorimeter design has been proposed. The major motivation is to significantly improve the hadronic energy resolution using high-density glass scintillator tiles to achieve a higher energy sampling fraction....

111. Beamtest data analysis and simulation validation for the CEPC AHCAL prototype

Dejing Du (IHEP)

13: Calorimeter

Poster

A technological prototype of high-granularity analog hadronic calorimeter (AHCAL) based on the plastic scintillator have been developed. The AHCAL prototype consists of a total of 12960 SiPM-on-Tile units in 40 longitudinal layers. Each layer is instrumented with plastic scintillator tiles as active material and a steel plate as absorber. In 2022 and 2023, the AHCAL prototype successfully...

94. Simulation Studies of the Effect of SiPM Dark Noise on the Performance of a Highly Granular Crystal ECAL

Jack ROLPH JACK CHRISTOPHER HUTCHIN (IHEP)

13: Calorimeter

Poster

A proposed highly-granular crystal ECAL for CEPC uses SiPMs to detect photon signals. Radiation-induced SiPM dark noise degrades calorimeter performance. A simulation study was performed to estimate the expected degradation in linearity of response and resolution due radiation damage to SiPMs. Simulations show dark noise causes up to 45% error in reconstructed energy for a 1 GeV electron...