First in vivo imaging of the degree of quantum entanglement of positron-annihilation photons in a human subject via polarization-plane measurements in the J-PET scanner.
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16 Pith papers cite this work, alongside 3,592 external citations. Polarity classification is still indexing.
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A LoRA-adapted conditional diffusion surrogate for electromagnetic calorimeter showers matches key observables within 2% RMSE and reproduces directional trends in design-utility gradients.
Detector-aware merged targets for calorimeter showers improve GNN particle flow reconstruction performance and robustness to topology changes on independent samples.
HIMoC devices produce threshold-voltage shifts from 24.8 MeV/u heavy ions that are modeled as Gaussian charge-loss profiles and scale linearly with fluence times LET times area.
Mitigation strategy for exploding gradients at material boundaries in differentiable radiation transport enables stable, optimization-ready derivatives for detector design.
Graph neural networks can identify and remove unwanted beam background depositions in the Belle II calorimeter to improve hadronic clustering and reduce fake photon clusters.
Unsupervised domain adaptation via feature alignment raises radioisotope identification accuracy on real LaBr3 gamma spectra from 0.754 to 0.904 for models trained only on synthetic data.
CERES is a dedicated cryogenic experiment to directly characterize position-dependent variations in the energy response of TeO2 bolometers.
Geant4 now supports configuring optical simulations entirely through extended text-based geometry descriptions without requiring C++ programming.
Optical broadening in glass GEMs increases simulated particle track intensity and width by up to 26% and 31%, explaining larger-than-expected signals in GEM-based OTPCs.
New cross sections for natC(n,p) and natC(n,d) up to 25 MeV are higher than evaluations and agree with TALYS-2.0 after model-assisted corrections for excited states.
CMS measures the W boson mass as 80360.2 ± 9.9 MeV from 2016 data, consistent with the Standard Model prediction.
The ratio |G_E|/|G_M| of neutron timelike form factors averages 1.21 ± 0.13 across eight energy points from 1.89 to 2.00 GeV.
Neural network reconstructs cosmic-ray trajectories to better than 1.4° angular resolution and separates charges to >95% accuracy for Z≤8 using Geant4-simulated data for the RadMap Telescope.
Prototype optical TPC assembled and tested for characterization of drift, amplification, and alpha track imaging in Ar/CF4 to guide full system for SARAF neutron studies.
citing papers explorer
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First-in-human quantum entanglement imaging
First in vivo imaging of the degree of quantum entanglement of positron-annihilation photons in a human subject via polarization-plane measurements in the J-PET scanner.
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Differentiable Surrogate for Detector Simulation and Design with Diffusion Models
A LoRA-adapted conditional diffusion surrogate for electromagnetic calorimeter showers matches key observables within 2% RMSE and reproduces directional trends in design-utility gradients.
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Detector-aware target definitions for full-event particle reconstruction
Detector-aware merged targets for calorimeter showers improve GNN particle flow reconstruction performance and robustness to topology changes on independent samples.
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A Heavy Ion Monitor on a Chip Based on a Non-Volatile Memory Architecture -- Part II: Device Characterization & Modeling
HIMoC devices produce threshold-voltage shifts from 24.8 MeV/u heavy ions that are modeled as Gaussian charge-loss profiles and scale linearly with fluence times LET times area.
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Exploring the Boundaries of Differentiable Radiation Transport and Detector Simulation
Mitigation strategy for exploding gradients at material boundaries in differentiable radiation transport enables stable, optimization-ready derivatives for detector design.
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Using Graph Neural Networks for hadronic clustering and to reduce beam background in the Belle~II electromagnetic calorimeter
Graph neural networks can identify and remove unwanted beam background depositions in the Belle II calorimeter to improve hadronic clustering and reduce fake photon clusters.
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Unsupervised domain adaptation for radioisotope identification in gamma spectroscopy
Unsupervised domain adaptation via feature alignment raises radioisotope identification accuracy on real LaBr3 gamma spectra from 0.754 to 0.904 for models trained only on synthetic data.
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CERES: A Cryogenic Experiment to Reconstruct Energy Systematics in TeO$_{2}$ bolometers
CERES is a dedicated cryogenic experiment to directly characterize position-dependent variations in the energy response of TeO2 bolometers.
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Geant4 Optical Simulation without C++
Geant4 now supports configuring optical simulations entirely through extended text-based geometry descriptions without requiring C++ programming.
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Optical effects in Gaseous Electron Multipliers (GEMs)
Optical broadening in glass GEMs increases simulated particle track intensity and width by up to 26% and 31%, explaining larger-than-expected signals in GEM-based OTPCs.
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Energy-differential measurement of the $^{\mathrm{nat}}$C(n,p) and $^{\mathrm{nat}}$C(n,d) reactions at the n_TOF facility at CERN
New cross sections for natC(n,p) and natC(n,d) up to 25 MeV are higher than evaluations and agree with TALYS-2.0 after model-assisted corrections for excited states.
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Measurement of the neutron timelike electric and magnetic form factors ratio at the VEPP-2000 $e^+e^-$ collider
The ratio |G_E|/|G_M| of neutron timelike form factors averages 1.21 ± 0.13 across eight energy points from 1.89 to 2.00 GeV.
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Development of a Multi-Purpose Optical TPC for Neutron-Induced Reaction Studies at SARAF
Prototype optical TPC assembled and tested for characterization of drift, amplification, and alpha track imaging in Ar/CF4 to guide full system for SARAF neutron studies.
- Design and Performance of a Monolithic Plastic Scintillator Tracker with Embedded Scatterers