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View article: Discurso de asunción del presidente de SACPER período 2025-2026 Dr. Jorge Ricardo Wetzel
Discurso de asunción del presidente de SACPER período 2025-2026 Dr. Jorge Ricardo Wetzel Open
View article: Study of the time and energy resolution of an ultracompact sampling calorimeter (RADiCAL) module at EM shower maximum over the energy range 25 ≤ E ≤ 150 GeV using scintillation and wavelength shifting technology
Study of the time and energy resolution of an ultracompact sampling calorimeter (RADiCAL) module at EM shower maximum over the energy range 25 ≤ E ≤ 150 GeV using scintillation and wavelength shifting technology Open
The RADiCAL Collaboration is conducting R&D on precision-timing electromagnetic (EM) calorimetry to address the challenges expected in future collider experiments under conditions of high luminosity and/or high irradiation such as those ex…
View article: Utilization of Secondary Electron Emission Principle in Calorimeter Active Media
Utilization of Secondary Electron Emission Principle in Calorimeter Active Media Open
Secondary electron emission is the primary signal formation and/or amplification technique utilized in accelerator beam monitors and photomultiplier tubes where incident energetic particles cause ejection of additional electrons from a sec…
View article: Q-Wall, a Novel Quartz-Cherenkov Calorimeter Concept
Q-Wall, a Novel Quartz-Cherenkov Calorimeter Concept Open
Future collider experiments and the upgrade of the existing large-scale experiments impose unprece-dented radiation conditions for the calorimeter systems, particularly in the forward region. The calorimeters envisaged for these operating …
View article: Study of time resolution measurements and prospects for energy resolution of an ultra-compact sampling calorimeter (RADiCAL) module at EM shower maximum over the energy range 25 GeV 150 GeV
Study of time resolution measurements and prospects for energy resolution of an ultra-compact sampling calorimeter (RADiCAL) module at EM shower maximum over the energy range 25 GeV 150 GeV Open
The RADiCAL Collaboration is conducting R&D on high performance electromagnetic (EM) calorimetry to address the challenges expected in future collider experiments under conditions of high luminosity and/or high irradiation (FCC-ee, FCC-hh,…
View article: Study of time and energy resolution of an ultra-compact sampling calorimeter (RADiCAL) module at EM shower maximum over the energy range 25 GeV $\leq$ E $\leq$ 150 GeV
Study of time and energy resolution of an ultra-compact sampling calorimeter (RADiCAL) module at EM shower maximum over the energy range 25 GeV $\leq$ E $\leq$ 150 GeV Open
The RADiCAL Collaboration is conducting R\&D on high performance electromagnetic (EM) calorimetry to address the challenges expected in future collider experiments under conditions of high luminosity and/or high irradiation (FCC-ee, FCC-hh…
View article: Beam Test Results of the RADiCAL—A Radiation Hard Innovative EM Calorimeter
Beam Test Results of the RADiCAL—A Radiation Hard Innovative EM Calorimeter Open
High-performance calorimetry conducted at future hadron colliders, such as the FCC-hh, poses a significant challenge for applying current detector technologies due to unprecedented beam luminosities and radiation fields. Solutions include …
View article: Beam Test Results of the RADiCAL -- a Radiation Hard Innovative EM Calorimeter
Beam Test Results of the RADiCAL -- a Radiation Hard Innovative EM Calorimeter Open
High performance calorimetry conducted at future hadron colliders, such as the FCC-hh, poses a significant challenge for applying current detector technologies due to unprecedented beam luminosities and radiation fields. Solutions include …
View article: Radiation Damage and Recovery Mechanisms in Scintillating Fibers
Radiation Damage and Recovery Mechanisms in Scintillating Fibers Open
Optical scintillating bers lose their transparencies when exposed to radiation. Nearly all studies of radiation damage to optical bers so far only characterize this darkening with a single period of irradiation. Following the irradiation, …
View article: Measurement of Light Yield, Timing and Radiation Damage and Recovery of Common Plastic Scintillators
Measurement of Light Yield, Timing and Radiation Damage and Recovery of Common Plastic Scintillators Open
PEN and PET (polyethylene naphthalate and teraphthalate) are common plastics used for drink bottles and plastic food containers. They are also good scintillators. Their ubiquity has made them of interest for high energy physics application…
View article: Secondary Emission Calorimetry
Secondary Emission Calorimetry Open
Electromagnetic calorimetry in high-radiation environments, e.g., forward regions of lepton and hadron collider detectors, is quite challenging. Although total absorption crystal calorimeters have superior performance as electromagnetic ca…
View article: RADiCAL—Precision Timing, Ultracompact, Radiation-Hard Electromagnetic Calorimetry
RADiCAL—Precision Timing, Ultracompact, Radiation-Hard Electromagnetic Calorimetry Open
To address the challenges of providing high-performance calorimetry in future hadron collider experiments under conditions of high luminosity and high radiation (FCC-hh environments), we conducted R&D on advanced calorimetry techniques sui…
View article: Tile Multiple-Readout and Beyond for FCC
Tile Multiple-Readout and Beyond for FCC Open
Dual Readout Calorimetry measures scintillation light and Cherenkov light on the same hadron shower to correct the jet energy in order to compensate hadron and jet energy measurements. Dual Readout with parallel plastic scintillator and qu…
View article: Very Forward Calorimetry at the FCC
Very Forward Calorimetry at the FCC Open
The success of any particle detector at a collider experiment depends on its ability to measure both the trajectories and the energies of particles exiting the interaction point. Especially important and difficult is measuring the trajecto…
View article: Scintillation timing characteristics of common plastics for radiation detectionexcited with 120 GeV protons
Scintillation timing characteristics of common plastics for radiation detectionexcited with 120 GeV protons Open
The timing characteristics of scintillators must be understood in order to determine which applications theyare appropriate for. Polyethylene naphthalate (PEN) and polyethylene teraphthalate (PET) are common plastics withuncommon scintilla…
View article: Scintillation Timing Characteristics of Common Plastics for Radiation Detection Excited With 120 GeV Protons
Scintillation Timing Characteristics of Common Plastics for Radiation Detection Excited With 120 GeV Protons Open
The timing characteristics of scintillators must be understood in order to determine which applications they are appropriate for. Polyethylene naphthalate (PEN) and polyethylene teraphthalate (PET) are common plastics with uncommon scintil…
View article: Development of Radiation Hard Scintillators
Development of Radiation Hard Scintillators Open
Modern high-energy physics experiments are in ever increasing need for radiation hard scintillators and detectors. In this regard, we have studied various radiation-hard scintillating materials such as Polyethylene Naphthalate (PEN), Polye…
View article: Emptiness: Feeling Christian in America. By John Corrigan . Chicago: University of Chicago Press, 2015. x + 225 pp. $35.00 cloth.
Emptiness: Feeling Christian in America. By John Corrigan . Chicago: University of Chicago Press, 2015. x + 225 pp. $35.00 cloth. Open
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View article: Liquid scintillator tiles for calorimetry
Liquid scintillator tiles for calorimetry Open
Future experiments in high energy and nuclear physics may require large, inexpensive calorimeters that can continue to operate after receiving doses of 50 Mrad or more. The light output of liquid scintillators suffers little degradation un…