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Software Compensation for Highly Granular Calorimeters using Machine Learning / CALICE Collaboration
A neural network for software compensation was developed for the highly granular CALICE Analogue Hadronic Calorimeter (AHCAL). The neural network uses spatial and temporal event information from the AHCAL and energy information, which is expected to improve sensitivity to shower development and the neutron fraction of the hadron shower. [...]
arXiv:2403.04632.- 2024-04 - 27 p. - Published in : JINST 19 (2024) P04037 Fulltext: 2403.04632 - PDF; Publication - PDF;

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(91)

Hadronic Energy Resolution of a Combined High Granularity Scintillator Calorimeter System / CALICE Collaboration
This paper presents results obtained with the combined CALICE Scintillator Electromagnetic Calorimeter, Analogue Hadronic Calorimeter and Tail Catcher & Muon Tracker, three high granularity scintillator-SiPM calorimeter prototypes. The response of the system to pions with momenta between 4 GeV/c and 32 GeV/c is analysed, including the energy response, resolution, and longitudinal shower profiles. [...]
arXiv:1809.03909; CALICE-PUB-2018-001.- 2018-12-17 - 33 p. - Published in : JINST 13 (2018) P12022 Fulltext: 1809.03909 - PDF; fulltext1693584 - PDF; Fulltext from Publisher: PDF;

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(82)

Shower Separation in Five Dimensions for Highly Granular Calorimeters using Machine Learning / CALICE Collaboration
To achieve state-of-the-art jet energy resolution for Particle Flow, sophisticated energy clustering algorithms must be developed that can fully exploit available information to separate energy deposits from charged and neutral particles. Three published neural network-based shower separation models were applied to simulation and experimental data to measure the performance of the highly granular CALICE Analogue Hadronic Calorimeter (AHCAL) technological prototype in distinguishing the energy deposited by a single charged and single neutral hadron for Particle Flow. [...]
arXiv:2407.00178.- 2024-10-24 - 29 p. - Published in : JINST 19 (2024) P10027 Fulltext: 2407.00178 - PDF; document - PDF;

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(56)

DHCAL with Minimal Absorber: Measurements with Positrons / CALICE Collaboration
In special tests, the active layers of the CALICE Digital Hadron Calorimeter prototype, the DHCAL, were exposed to low energy particle beams, without being interleaved by absorber plates. The thickness of each layer corresponded approximately to 0.29 radiation lengths or 0.034 nuclear interaction lengths, defined mostly by the copper and steel skins of the detector cassettes. [...]
arXiv:1603.01652; CALICE-PUB-2016-003.- 2016-05-13 - 24 p. - Published in : JINST 11 (2016) P05008 Fulltext: PDF; IOP Open Access article: PDF; External link: Preprint

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(55)

Analysis of Testbeam Data of the Highly Granular RPC-Steel CALICE Digital Hadron Calorimeter and Validation of Geant4 Monte Carlo Models / CALICE Collaboration
We present a study of the response of the highly granular Digital Hadronic Calorimeter with steel absorbers, the Fe-DHCAL, to positrons, muons, and pions with momenta ranging from 2 to 60 GeV/c. Developed in the context of the CALICE collaboration, this hadron calorimeter utilises Resistive Plate Chambers as active media, interspersed with steel absorber plates. [...]
arXiv:1901.08818; CALICE-PUB-2019-001.- 2019-09-21 - 17 p. - Published in : Nucl. Instrum. Methods Phys. Res., A 939 (2019) 89-105 Fulltext: PDF;

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(48)

Design, Construction and Commissioning of a Technological Prototype of a Highly Granular SiPM-on-tile Scintillator-Steel Hadronic Calorimeter / CALICE Collaboration
The CALICE collaboration is developing highly granular electromagnetic and hadronic calorimeters for detectors at future energy frontier electron-positron colliders. After successful tests of a physics prototype, a technological prototype of the Analog Hadron Calorimeter has been built, based on a design and construction techniques scalable to a collider detector. [...]
arXiv:2209.15327; CALICE-PUB-2022-003.- 2023-11-22 - 37 p. - Published in : JINST 18 (2023) P11018 Fulltext: 2209.15327 - PDF; document - PDF;

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(45)

CALICE Report to the DESY Physics Research Committee / CALICE Collaboration
We present an overview of the CALICE activities on calorimeter development for a future linear collider. [...]
arXiv:1105.0511. - 2011. - 71 p.
Preprint - Full text

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(45)

Construction and Response of a Highly Granular Scintillator-based Electromagnetic Calorimeter / CALICE Collaboration
A highly granular electromagnetic calorimeter with scintillator strip readout is being developed for future lepton collider experiments. A prototype of 21.5 $X_0$ depth and $180 \times 180 $mm$^2$ transverse dimensions was constructed, consisting of 2160 individually read out $10 \times 45 \times 3$ mm$^3$ scintillator strips. [...]
arXiv:1707.07126; CALICE-PUB-2017-002.- 2018-04-11 - 19 p. - Published in : Nucl. Instrum. Methods Phys. Res., A 887 (2018) 150-168 Fulltext: PDF;

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(43)

Testing Hadronic Interaction Models using a Highly Granular Silicon-Tungsten Calorimeter / CALICE Collaboration
A detailed study of hadronic interactions is presented using data recorded with the highly granular CALICE silicon-tungsten electromagnetic calorimeter. Approximately 350,000 selected negatively charged pion events at energies between 2 and 10 GeV have been studied. [...]
arXiv:1411.7215; CALICE-PUB-2014-002.- Geneva : CERN, 2015-09-11 - 15 p. - Published in : Nucl. Instrum. Methods Phys. Res., A 794 (2015) 240-254 Elsevier Open Access article: PDF; Fulltext: arXiv:1411.7215 - PDF; AIDA-PUB-2014-024 - PDF; External link: Preprint

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Description and stability of a RPC-based calorimeter in electromagnetic and hadronic shower environments / CALICE Collaboration
The CALICE Semi-Digital Hadron Calorimeter technological prototype completed in 2011 is a sampling calorimeter using Glass Resistive Plate Chamber (GRPC) detectors as the active medium. This technology is one of the two options proposed for the hadron calorimeter of the International Large Detector for the International Linear Collider. [...]
arXiv:2207.06291; CALICE-PUB-2022-02; CALICE-PUB-2023-02.- 2023-03-20 - 33 p. - Published in : JINST 18 (2023) P03035 Fulltext: document - PDF; 2207.06291 - PDF;

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