We report on an investigation of the self-similar structure of particle showers recorded at a highly-granular calorimeter. On both simulated and experimental data, a strong correlation between the number of hits and the spatial scale of the readout channels is observed, from which we define the shower fractal dimension. The measured fractal dimension turns out to be strongly dependent on particle type, which enables new approaches for particle identification. A logarithmic dependence of the particle energy on the fractal dimension is also observed
Self-similarity in high-energy multiparticle production processes is discussed. A parton shower and ...
publisher[Abstract] Fractal dimensionality of air shower time series data is studied. The fractal di...
The highly granular calorimeters developed and tested by the CALICE collaboration have provided larg...
We explore the fractal nature of particle showers using Monte-Carlo simulation. We define the fracta...
The concept of “particle flow” has been developed to optimise the jet energy resolution by distingui...
We study the self-similar structure of electromagnetic showers and introduce the notion of the fract...
The highly granular calorimeter prototypes of the CALICE collaboration have provided large data samp...
We investigate the three dimensional substructure of hadronic showers in the CALICE scintillator-ste...
International audienceThe CALICE Collaboration pioneers past and present developments of highly gran...
[Abstract] The fractal dimensionality in time series of air shower arriving time intervals (ASATs) i...
The CALICE collaboration has constructed highly granular electromagnetic and hadronic calorimeter pr...
AbstractThe CALICE collaboration develops highly granular calorimeter prototypes to evaluate technol...
Prototypes of electromagnetic and hadronic imaging calorimeters developed and operated by the CALICE...
New jet observables are defined which characterize both fractal and scale-dependent contributions to...
Self-similarity in high-energy multiparticle production processes is discussed. A parton shower and ...
publisher[Abstract] Fractal dimensionality of air shower time series data is studied. The fractal di...
The highly granular calorimeters developed and tested by the CALICE collaboration have provided larg...
We explore the fractal nature of particle showers using Monte-Carlo simulation. We define the fracta...
The concept of “particle flow” has been developed to optimise the jet energy resolution by distingui...
We study the self-similar structure of electromagnetic showers and introduce the notion of the fract...
The highly granular calorimeter prototypes of the CALICE collaboration have provided large data samp...
We investigate the three dimensional substructure of hadronic showers in the CALICE scintillator-ste...
International audienceThe CALICE Collaboration pioneers past and present developments of highly gran...
[Abstract] The fractal dimensionality in time series of air shower arriving time intervals (ASATs) i...
The CALICE collaboration has constructed highly granular electromagnetic and hadronic calorimeter pr...
AbstractThe CALICE collaboration develops highly granular calorimeter prototypes to evaluate technol...
Prototypes of electromagnetic and hadronic imaging calorimeters developed and operated by the CALICE...
New jet observables are defined which characterize both fractal and scale-dependent contributions to...
Self-similarity in high-energy multiparticle production processes is discussed. A parton shower and ...
publisher[Abstract] Fractal dimensionality of air shower time series data is studied. The fractal di...
The highly granular calorimeters developed and tested by the CALICE collaboration have provided larg...