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A. Cheminet
Researcher at Institut de radioprotection et de sûreté nucléaire
Publications - 13
Citations - 267
A. Cheminet is an academic researcher from Institut de radioprotection et de sûreté nucléaire. The author has contributed to research in topics: Neutron & Cosmic ray. The author has an hindex of 8, co-authored 13 publications receiving 241 citations.
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Journal ArticleDOI
Neutron monitors and muon detectors for solar modulation studies: 2. ϕ time series
TL;DR: In this paper, the authors established a correspondence between the uncertainties on ground-based detectors count rates and the parameter ϕ (modulation level in the force-field approximation) reconstructed from these count rates.
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Neutron monitors and muon detectors for solar modulation studies: Interstellar flux, yield function, and assessment of critical parameters in count rate calculations
TL;DR: In this paper, an abacus to translate any variation of count rates (for neutron and μ detectors) to a variation of the solar modulation ϕ is provided, and the main uncertainty for neutron monitors is related to the yield function, while other effects have a significant impact, at the 5-10% level on ϕ values.
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Continuous High-Altitude Measurements of Cosmic Ray Neutrons and SEU/MCU at Various Locations: Correlation and Analyses Based-On MUSCA SEP $^{3}$
Guillaume Hubert,Raoul Velazco,C. A. Federico,A. Cheminet,C. Silva-Cardenas,Linda V.E. Caldas,F. Pancher,V. Lacoste,F. Palumbo,Wassim Mansour,Laurent Artola,F. Pineda,Sophie Duzellier +12 more
TL;DR: In this paper, measurements at high-altitude of both radiation environment and effects are described at Pic-du-Midi, France, and in the city of Puno, Peru.
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Radiation Effects Investigations Based on Atmospheric Radiation Model (ATMORAD) Considering GEANT4 Simulations of Extensive Air Showers and Solar Modulation Potential
Guillaume Hubert,A. Cheminet +1 more
TL;DR: An atmospheric radiation model, named ATMORAD (Atmospheric Radiation), which is based on GEANT4 simulations of extensive air showers according to primary spectra that depend only on the solar modulation potential (force-field approximation) is presented.
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Characterization of the IRSN neutron multisphere spectrometer (HERMEIS) at European standard calibration fields
TL;DR: The HERMEIS system as mentioned in this paper is a high energy range multispectral extended IRSN (HERMEIS) set of 13 Bonner spheres, including three extended ones with tungsten and lead shells, calculated with the radiation transport code MCNPX-2.6f.