J. «. Jokipii, Propagation of cosmic rays in the solar wind, Reviews of Geophysics, vol.156, issue.suppl., pp.27-87, 1971.
DOI : 10.1029/RG009i001p00027

D. Gilbert and . Mead, « Deformation of the geomagnetic field by the solar wind, Journal of Geophysical Research, vol.697, pp.1181-1195, 1964.

A. James and . Van-allen, The geomagnetically trapped corpuscular radiation, Journal of Geophysical Research, vol.6411, pp.1683-1689, 1959.

F. Eigil and L. Knud, « Length of the solar cycle : an indicator of solar activity closely associated with climate, Science, vol.2545032, pp.698-700, 1991.

I. Rüedi, S. Solanki, and J. Stenflo, Oscillations of sunspot magnetic fields, Astronomy and Astrophysics, vol.335, pp.97-100, 1998.

M. Betsy, . Sutherland, V. Paula, . Bennett, and S. Olga, Clustered DNA damages induced in isolated DNA and in human cells by low doses of ionizing radiation, Proceedings of the National Academy of Sciences 97, pp.103-108, 2000.

C. Francis, F. Manuel, and J. Jones, Space radiation and cataracts in astronauts, Radiation research, vol.1565, pp.460-466, 2001.

A. Francis, . Cucinotta, and D. Marco, « Cancer risk from exposure to galactic cosmic rays : implications for space exploration by human beings, The lancet oncology 7, pp.431-435, 2006.

B. Daniel, X. Li, and A. Pulkkinen, A major solar eruptive event in Defining extreme space weather scenarios, Space Weather, pp.585-591, 2012.

E. John, . Naugle, A. Donald, and . Kniffen, « Flux and energy spectra of the protons in the inner Van Allen belt, Physical Review Letters, vol.7, issue.1, pp.3-19, 1961.

F. Michelle, J. Thomsen, V. Alfred, and . Allen, Motion of Trapped Electrons and Protons in Saturn's Inner Magnetosphere, Rapp. tech. DTIC Document, p.20, 1980.

C. Ron, Ephemeral third ring of radiation makes appearance around Earth Nature (28 fév. 2013) ISSN, pp.1476-4687

V. Sergeevich, B. , S. Bulanov, and V. Ginzburg, The astrophysics of cosmic rays, Moscow, Izdatel'stvo Nauka, p.21, 1984.

W. John, The Oh-My-God Particle

V. Kuzmin and G. Zatsepin, On cosmic-ray interactions with photons, Canadian Journal of Physics, vol.46, issue.10, pp.617-619, 1968.
DOI : 10.1139/p68-309

J. Laura, . Watson, J. Daniel, . Mortlock, H. Andrew et al., A Bayesian analysis of the 27 highest energy cosmic rays detected by the Pierre Auger Observatory, Monthly Notices of the Royal Astronomical Society, vol.4181, pp.206-213, 2011.

M. Israel, J. George, and R. Mewaldt, An overview of cosmic-ray elemental composition, Advanced Composition Explorer (ACE) News, p.23, 2004.

G. Reitz, Radiation environment in the stratosphere, Radiation Protection Dosimetry, vol.481, pp.5-20, 1993.

F. «. Enrico, On the origin of the cosmic radiation, Physical Review, vol.758, pp.1169-1193, 1949.

A. Markus, A. Marco, and A. Allafort, Detection of the characteristic pion-decay signature in supernova remnants, Science, vol.3396121, pp.807-811, 2013.

S. Bourdarie, D. Boscher, and P. Nieminen, Towards new radiation belt model definition using simultaneously in-situ measurements and physical model, 35th COSPAR Scientific Assembly. T. 35, pp.2554-2578, 2004.

L. Janet, C. Barth, E. Dyer, and . Stassinopoulos, « Space, atmospheric, and terrestrial radiation environments, In : Nuclear Science IEEE Transactions on, vol.503, pp.466-482, 2003.

S. Todor, High energy cosmic rays, pp.25-31, 2010.

K. Thomas, . Gaisser, and H. Michael, « Reliability of the method of constant intensity cuts for reconstructing the average development of vertical showers, International Cosmic Ray Conference. T. 8, pp.353-357, 1977.

J. F. Ziegler, Terrestrial cosmic rays, IBM Journal of Research and Development, vol.40, issue.1, pp.19-39, 1996.
DOI : 10.1147/rd.401.0019

N. Kanetada, Introductory muon science, p.28, 2003.

K. Thomas, . Gaisser, E. Ralph, and R. Elisa, Cosmic rays and particle physics, p.28, 2016.

A. Claude, M. Doser, and M. Antonelli, Review of particle physics, Physics Letters B, vol.6671, pp.1-6, 2008.

M. Shea and D. Smart, « Comment on galactic cosmic radiation dose to air crews, Proceedings of ICRC. T. 2001. 4071, p.28, 2001.

N. Eugene, Single event upset at ground level, IEEE transactions on Nuclear Science, vol.436, pp.2742-2750, 1996.

L. Aurore, Méthodologie de prédiction des effets destructifs dus à l'environnement radiatif naturel sur les MOSFETs et IGBTs de puissance

M. «. Nicoletta, Measurement of the atmospheric muon charge ratio with the OPERA detector, p.29, 2011.

J. F. Ziegler, H. W. Curtis, and H. P. Muhlfeld, IBM experiments in soft fails in computer electronics, ) ». In : IBM journal of research and development 40, pp.3-18, 1978.

E. Wenaas, Spacecraft Charging Effects on Satellites Following STARFISH Event, Rapp. tech. DTIC Document, p.33, 1978.

E. «. Stassinopoulos, The Starfish Exo-Atmospheric, High Altitude Nuclear Weapons Test, p.33, 2015.

B. Marta and G. Simone, Ionizing Radiation Effects in Electronics : From Memories to Imagers. T. 50, pp.2015-2048

K. S. Krane, Introductory nuclear physics URL : http : / / gate4 . inist . fr / login ? url = http, 1987.

J. Olsen, P. Becher, and P. Fynbo, Neutron-induced single event upsets in static RAMS observed a 10 km flight attitude, IEEE Transactions on Nuclear Science, vol.40, issue.2, pp.74-77, 1993.
DOI : 10.1109/23.212319

A. Taber and E. Normand, Single event upset in avionics, IEEE Transactions on Nuclear Science, vol.40, issue.2, p.36, 1993.
DOI : 10.1109/23.212327

S. Rein, H. Chen, . Tsao, R. John, and . Letaw, « Neutron generated single-event upsets in the atmosphere », In : Nuclear Science IEEE Transactions on, vol.316, pp.1183-1185, 1984.

P. Nicolas, Interaction des neutrons avec la matière, 2016.

L. Pierre and L. Annie, « Fonctions de potentiel interatomiques déduites d'énergies. Seuil de déplacements, Journal de Physique, vol.247, pp.503-507, 1963.

L. Clément, Science des matériaux pour le nucléaire, EDP Sciences, pp.2012-2053

R. Robert and . Schaller, Technological innovation in the semiconductor industry : a case study of the International Technology Roadmap for Semiconductors (ITRS), Thèse de doct, p.48, 2004.

M. «. Florian, Fiabilité des technologies CMOS fortement sub-microniques pour les applications avioniques et aérospatiales, Thèse de doct, pp.48-49, 2011.

I. «. Present, Cramming more components onto integrated circuits, Readings in computer architecture, p.49, 2000.

R. Robert, . Schaller, and . Moore, s law : past, present and future », In : Spectrum , IEEE, vol.346, pp.52-59, 1997.

R. «. Kurt, Optical lithography?a historical perspective, Comptes Rendus Physique, vol.78, pp.844-857, 2006.

J. «. Julien, Lithographie directe à faisceaux d'électrons multiples pour les noeuds technologiques sub-20nm, Thèse de doct, pp.2015-50

C. Jean-pierre, Silicon-on-Insulator Technology : Materials to VLSI : Materials to Vlsi, p.51, 2004.

R. Melanie, Etude de l'effet de l'énergie des ions lourds sur la sensibilité des composants électroniques, Thèse de doct, p.52, 2011.

E. Eric, Is FD-SOI really faster cooler and simpler. 2013 (cf, p.53

C. Qing, H. Shu-jen, and T. Jerry, End-bonded contacts for carbon nanotube transistors with low, size-independent resistance, Science, vol.3506256, pp.68-72, 2015.

P. Stuart, J. Xin, and K. Christian, Magnetically engineered spintronic sensors and memory, Proceedings of the IEEE 91, pp.661-680, 2003.

B. Wim, B. Roel, and D. Pieter, Nanophotonic waveguides in silicon-on-insulator fabricated with CMOS technology, Journal of Lightwave Technology, vol.231, pp.401-412, 2005.

W. Avik, . Ghosh, R. Titash, and D. Supriyo, « Gating of a molecular transistor : Electrostatic and conformational, Nano Letters, vol.44, pp.565-568, 2004.

N. Michael, Soft errors in modern electronic systems. T. 41, p.55, 2010.

W. Fred and . Sexton, Destructive single-event effects in semiconductor devices and ICs, IEEE Transactions on Nuclear Science, vol.503, pp.603-621, 2003.

L. «. Valérian, Etude des effets singuliers produits par les particules énergétiques chargées de l'environnement radiatif spatial sur les capteurs d'images CMOS, Thèse de doct, pp.2013-59

J. Beringer, 31. passage of particles through matter. Rapp. tech, Particle Data Group, issue.cf, p.61, 2013.

F. David, . Heidel, P. Kenneth, . Rodbell, and O. Phil, Single-eventupset critical charge measurements and modeling of 65 nm silicon-oninsulator latches and memory cells, IEEE transactions on nuclear science, vol.536, pp.3512-3517, 2006.

P. Kenneth, . Rodbell, F. David, . Heidel, H. Henry et al., Low-energy proton-induced single-event-upsets in 65 nm node, silicon-on-insulator, latches and memory cells, IEEE Transactions on Nuclear Science, vol.654, issue.62, pp.2474-2479, 2007.

F. David, P. W. Heidel, K. A. Marshall, and . Label, Low energy proton single-event-upset test results on 65 nm SOI SRAM, IEEE Transactions on Nuclear Science, vol.556, pp.3394-3400, 2008.

H. Guillaume, B. Sébastien, and A. Laurent, Impact of the solar flares on the SER dynamics on micro and nanometric technologies, IEEE Transactions on Nuclear Science, vol.576, pp.3127-3134, 2010.

F. James, W. A. Ziegler, and . Lanford, « Effect of cosmic rays on computer memories, Science, vol.2064420, pp.776-788, 1979.

S. Rein, H. Chen, . Tsao, R. John, and . Letaw, « Neutron generated single-event upsets in the atmosphere, IEEE Transactions on Nuclear Science, vol.316, pp.1183-1185, 1984.

J. Dicello, M. Paciotti, and M. Schillaci, An estimate of error rates in integrated circuits at aircraft altitudes and at sea level, Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, vol.40, issue.41, pp.1295-1299, 1989.
DOI : 10.1016/0168-583X(89)90643-5

B. D. Sierawski, M. H. Mendenhall, and R. Robert, Muoninduced single event upsets in deep-submicron technology », In : Nuclear Science IEEE Transactions on, vol.576, pp.3273-3278, 2010.

D. Brian, . Sierawski, A. Robert, . Reed, H. Marcus et al., Effects of scaling on muon-induced soft errors ». In : International Reliability Physics Symposium, p.63, 2011.

E. Kobetich and K. Robert, « Energy deposition by electron beams and " rays, Physical Review, vol.1702, pp.391-65, 1968.

E. Paul, O. Dodd, M. Musseau, and . Shaneyfelt, Impact of ion energy on single-event upset, IEEE Transactions on Nuclear Science, vol.456, pp.2483-2491, 1998.

S. Aaron, . Kobayashi, L. Andrew, . Sternberg, W. Lloyd et al., Spatial and temporal characteristics of energy deposition by protons and alpha particles in silicon, IEEE transactions on nuclear science 51, pp.3312-3317, 2004.

R. Mélanie, H. Guillaume, and G. Marc, Impact of the radial ionization profile on SEE prediction for SOI transistors and SRAMs beyond the 32-nm technological node, IEEE Transactions on Nuclear Science, vol.583, pp.840-847, 2011.

V. Audrey, R. Mélanie, and G. Marc, Geant4 physics processes for microdosimetry simulation : Very low energy electromagnetic models for protons and heavy ions in silicon, Nuclear Instruments and Methods in Physics Research Section B : Beam Interactions with Materials and Atoms, pp.124-129, 2012.

G. Cirrone, G. Cuttone, and F. Di-rosa, Validation of the Geant4 electromagnetic photon cross-sections for elements and compounds, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, vol.618, issue.1-3, pp.315-322, 2010.
DOI : 10.1016/j.nima.2010.02.112

V. Marc, Introduction to Geant4 -Ecole GEANT4 de l'IN2P3. 2015 (cf, p.79

H. Ivana, Kernel -Ecole GEANT4 de l'IN2P3. 2015 (cf, pp.81-84

H. Ivana, Geometry -Ecole GEANT4 de l'IN2P3. 2015 (cf, p.84

V. Marc, Primary Particles -Ecole GEANT4 de l'IN2P3. 2015 (cf, p.85

V. Marc, Physics II : Overview, Processes, Production Threshold, Regions and Cuts per region -Ecole GEANT4 de l'IN2P3. 2015 (cf, p.86

A. Akkerman, J. Barak, and D. Emfietzoglou, « Ion and electron trackstructure and its effects in silicon : model and calculations ». In : Nuclear Instruments and Methods in Physics Research Section B : Beam Interactions with, Materials and Atoms, vol.2273, pp.319-336, 2005.

I. Sébastien, G. Baldacchino, and M. Bernal, The Geant4-DNA project, International Journal of Modeling, Simulation, and Scientific Computing, vol.1, pp.2-157, 2010.

V. Audrey, R. Mélanie, and G. Marc, Geant4 physics processes for microdosimetry simulation : Very low energy electromagnetic models for protons and heavy ions in silicon, Nuclear Instruments and Methods in Physics Research Section B : Beam Interactions with Materials and Atoms, pp.124-129, 2012.

V. Audrey, R. Mélanie, and S. Jean-etienne, Geant4 physics processes for microdosimetry simulation : Very low energy electromagnetic models for electrons in silicon ». In : Nuclear Instruments and Methods in Physics Research Section B : Beam Interactions with, Materials and Atoms, vol.288, pp.66-73, 2012.

A. Bruce, . Faddegon, K. Iwan, and Y. Kubyshin, The accuracy of EGSnrc, Geant4 and PENELOPE Monte Carlo systems for the simulation of electron scatter in external beam radiotherapy ». In : Physics in medicine and biology 54, pp.6151-90, 2009.

R. Samuel, . Barnes, A. Grant, . Mcauley, M. James et al., Modeling considerations for improving accuracy of a proton therapy beam with GEANT4, Nuclear Science Symposium and Medical Imaging Conference, pp.2107-2112, 2012.

H. Guillaume, D. Sophie, and I. Christophe, « Operational SER calculations on the SAC-C orbit using the multi-scales single event phenomena predictive platform (MUSCA), IEEE Transactions on Nuclear Science, vol.566, pp.3032-3042, 2009.

P. Michael, . King, A. Robert, . Reed, A. Robert et al., The impact of delta-rays on single-event upsets in highly scaled SOI SRAMs, IEEE Transactions on Nuclear Science, vol.576, pp.3169-3175, 2010.

M. Michael, B. Joseph, and A. Avraham, « Calculation of cross section for ion-induced SEU through direct ionization in nanometric silicon devices with small critical energy, IEEE Transactions on Nuclear Science, vol.604, pp.3092-3103, 2013.

F. David, P. W. Heidel, K. A. Marshall, and . Label, Low energy proton single-event-upset test results on 65 nm SOI SRAM, IEEE Transactions on Nuclear Science, vol.556, pp.3394-3400, 2008.

F. David, . Heidel, P. Kenneth, . Rodbell, H. Ethan et al., Alphaparticle-induced upsets in advanced CMOS circuits and technology », In : IBM Journal of Research and Development, vol.523, pp.225-232, 2008.

P. Kenneth, . Rodbell, F. David, . Heidel, H. Henry et al., Low-energy proton-induced single-event-upsets in 65 nm node, silicon-on-insulator, latches and memory cells, IEEE Transactions on Nuclear Science, vol.654, pp.2474-2479, 2007.

F. David, . Heidel, W. Paul, . Marshall, A. Jonathan et al., Singleevent upsets and multiple-bit upsets on a 45 nm SOI SRAM, IEEE Transactions on Nuclear Science, vol.566, issue.111, pp.3499-3504, 2009.

H. Henry, . Tang, E. Conal, . Murray, and F. Giovanni, Modeling of alpha-induced single event upsets for 45 nm node SOI devices using realistic C4 and 3D circuit geometries, IEEE Transactions on Nuclear Science, vol.656, pp.3093-3097, 2009.

R. Mélanie, H. Guillaume, and P. Philippe, Implementing realistic heavy ion tracks in a SEE prediction tool : Comparison between different approaches, Radiation and Its Effects on Components and Systems (RADECS), 2011 12th European Conference on, pp.363-370, 2011.

M. Abu, R. Mohab, and A. , Nanometer Variation-Tolerant SRAM : Circuits and Statistical Design for Yield, p.108, 2012.

D. Brian, . Sierawski, A. Jonathan, . Pellish, A. Robert et al., Impact of low-energy proton induced upsets on test methods and rate predictions, IEEE Transactions on Nuclear Science, vol.566, issue.109, pp.3085-3092, 2009.

B. Sierawski, J. Pellish, and R. Reed, Low-Energy Proton Single Event Effects, p.108, 2009.

H. Guillaume, A. Laurent, and R. Didier, « Impact of scaling on the soft error sensitivity of bulk, FDSOI and FinFET technologies due to atmospheric radiation, Integration, the VLSI journal, vol.50, pp.39-47, 2015.

B. «. Mark, High Performance Logic Technology and Reliability Challenges ». In : International Reliability Physics Symposium, p.109, 2003.

R. Mélanie, H. Guillaume, and G. Marc, Monte Carlo prediction of heavy ion induced MBU sensitivity for SOI SRAMs using radial ionization profile, IEEE Transactions on Nuclear Science, vol.586, pp.2607-2613, 2011.

H. Guillaume, D. Sophie, and I. Christophe, « Operational SER calculations on the SAC-C orbit using the multi-scales single event phenomena predictive platform (MUSCA), IEEE Transactions on Nuclear Science, vol.566, pp.3032-3042, 2009.

H. Guillaume, L. Pierre, . Cavoli, and F. Claudio, Effect of the Radial Ionization Profile of Proton on SEU Sensitivity of Nanoscale SRAMs, IEEE Transactions on Nuclear Science, vol.626, pp.2837-2845, 2015.

G. Stéphane, G. Yves, and V. Jean, Simultaneous seismic and magnetic measurements in the Low-Noise Underground Laboratory (LSBB) of Rustrel, France, during the, Indian earthquake, pp.981-990, 2001.

F. «. Piquemal, Modane underground laboratory: Status and project, The European Physical Journal Plus, vol.634, issue.9, pp.1-5, 2012.
DOI : 10.1140/epjp/i2012-12110-3

P. Indumathie and W. , « Energy deposition study of low-energy cosmic radiation at sea level, p.127, 2007.

S. Tatsuhiko, Analytical Model for Estimating Terrestrial Cosmic Ray Fluxes Nearly Anytime and Anywhere in the World : Extension of PARMA/EXPACS, PloS one, vol.1012, pp.144679-127, 2015.

B. D. Sierawski, M. H. Mendenhall, and R. Robert, Muoninduced single event upsets in deep-submicron technology », In : Nuclear Science IEEE Transactions on, vol.576, pp.3273-3278, 2010.
DOI : 10.1109/tns.2010.2080689

H. Guillaume and C. Adrien, « Radiation effects investigations based on atmospheric radiation model (ATMORAD) considering GEANT4 simulations of extensive air showers and solar modulation potential, pp.83-94, 2015.

H. Guillaume, F. Claudio, and P. Mauricio, Long and short-term atmospheric radiation analyses based on coupled measurements at high altitude remote stations and extensive air shower modeling, Astroparticle Physics, vol.74, pp.27-36, 2016.

H. Guillaume, Analyses of cosmic ray induced-neutron based on spectrometers operated simultaneously at mid-latitude and Antarctica highaltitude stations during quiet solar activity, Astroparticle Physics, vol.83, pp.30-39, 2016.

L. Pierre, . Cavoli, H. Guillaume, and B. Jose, « Study of the atmospheric muon interactions based on CCD camera measurements and GEANT4 simulations : impact on Single Event Effect trends for nanoscale devices, Journal of Instrumentation xx.xx, p.136, 2017.