20th International Conference on Calorimetry in Particle Physics

Session

New technologies/New concepts 3

24 May 2024, 14:10

Tsukuba International Congress Center (Tsukuba Epochal)

Conveners

New technologies/New concepts 3

• Takahiro Fusayasu (Saga University (JP))

103. Recent Progress of Inorganic Scintillators for Future HEP Calorimetry

Renyuan Zhu (California Institute of Technology (US)), Renyuan Zhu (Caltech)

24/05/2024, 14:10

Oral

Following the priority research directions for calorimetry documented in the DOE HEP basic research needs for instruments the Caltech HEP Crystal Lab has been actively investigating novel inorganic scintillators along the following three directions. Fast and radiation hard inorganic scintillators to face the challenge of severe radiation environment expected by future HEP experiments at hadron...

93. Sampling calorimeter to measure the photon's incident angle

GeiYoub Lim

24/05/2024, 14:30

Oral

We will present a sampling calorimeter to measure the photons' incident angle. A three-dimensional fine-segmented calorimeter will measure the profiles of generated shower particles along the photon’s direction, which indicates the incident angle. A toy detector is designed for a feasibility study by simulation based on the GEANT4, a block consisting of alternating layers of a 1-mm-thick lead...

101. Development of High-Granularity Dual-Readout Calorimeter with psec Timing

TAIKI KAMIYAMA (University of Tokyo)

24/05/2024, 14:50

Oral

High-precision detectors are crucial for the exploration of new physics. This research aims to develop a new excellent resolution and high granular calorimetry by integrating Dual-Readout and High-Granularity techniques, along with picosec timing resolution. Dual-Readout is to measure hadronic showers by Cherenkov light addition to scintillation light to simultaneously read two types of...

92. Development of a New type of sandwich calorimeter with lead-glass and glass-scintillator.

Toru Takeshita (Shinshu University (JP))

24/05/2024, 15:10

Oral

We propose a new type of fully active total absorption
calorimeter with fine splitting capability. The calorimeter consists of a sandwich structure consisting of layers of scintillator glass and lead glass, which are further divided into small tiles. This configuration provides a finely segmented 3D calorimeter compatible with PFA. This article provides a description of the calorimeter and...