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Geiss J. Bühler F. Cerutti H. Eberhardt P. Filleux Ch. Meister J. Signer P. 《Space Science Reviews》2004,110(3-4):307-335
Space Science Reviews - The Apollo Solar Wind Composition (SWC) experiment was designed to measure elemental and isotopic abundances of the light noble gases in the solar wind, and to investigate... 相似文献
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H Aiginger V Andersen F Ballarini G Battistoni M Campanella M Carboni F Cerutti A Empl W Enghardt A Fassò A Ferrari E Gadioli M V Garzelli K Lee A Ottolenghi K Parodi M Pelliccioni L Pinsky J Ranft S Roesler P R Sala D Scannicchio G Smirnov F Sommerer T Wilson N Zapp 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2005,35(2):214-222
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V Andersen F Ballarini G Battistoni M Campanella M Carboni F Cerutti A Empl A Fassò A Ferrari E Gadioli M V Garzelli K Lee A Ottolenghi M Pelliccioni L S Pinsky J Ranft S Roesler P R Sala T L Wilson 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2004,34(6):1302-1310
The FLUKA Monte Carlo transport code is widely used for fundamental research, radioprotection and dosimetry, hybrid nuclear energy system and cosmic ray calculations. The validity of its physical models has been benchmarked against a variety of experimental data over a wide range of energies, ranging from accelerator data to cosmic ray showers in the earth atmosphere. The code is presently undergoing several developments in order to better fit the needs of space applications. The generation of particle spectra according to up-to-date cosmic ray data as well as the effect of the solar and geomagnetic modulation have been implemented and already successfully applied to a variety of problems. The implementation of suitable models for heavy ion nuclear interactions has reached an operational stage. At medium/high energy FLUKA is using the DPMJET model. The major task of incorporating heavy ion interactions from a few GeV/n down to the threshold for inelastic collisions is also progressing and promising results have been obtained using a modified version of the RQMD-2.4 code. This interim solution is now fully operational, while waiting for the development of new models based on the FLUKA hadron-nucleus interaction code, a newly developed QMD code, and the implementation of the Boltzmann master equation theory for low energy ion interactions. 相似文献
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L. Sihver M. Lantz M. Takechi A. Kohama A. Ferrari F. Cerutti T. Sato 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2012
Understanding the interactions and propagations of high energy protons and heavy ions are essential when trying to estimate the biological effects of Galactic Cosmic Rays (GCR) and Solar Particle Events (SPE) on personnel in space. To be able to calculate the shielding properties of different materials and radiation risks, particle and heavy ion transport codes are needed. In all particle and heavy ion transport codes, the probability function that a projectile particle will collide within a certain distance x in the matter depends on the total reaction cross sections, and the calculated partial fragmentation cross sections scale with the total reaction cross sections. It is therefore crucial that accurate total reaction cross section models are used in the transport calculations. In this paper, different models for calculating nucleon–nucleus and nucleus–nucleus total reaction cross sections are compared with each other and with measurements. The uncertainties in the calculations with the different models are discussed, as well as their overall performances with respect to the available experimental data. Finally, a new compilation of experimental data is briefly presented. 相似文献
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