Analysis is presented for times during a space mission that specified solar proton flux levels are exceeded. This includes both total time and continuous time periods during missions. Results for the solar maximum and solar minimum phases of the solar cycle are presented and compared for a broad range of proton energies and shielding levels. This type of approach is more amenable to reliability analysis for spacecraft systems and instrumentation than standard statistical models
A probabilistic model of cumulative solar heavy ion energy and LET spectra is developed for spacecra...
The probability with which any given proton fluence level will be exceeded during a space mission is...
Manned space missions to Mars require consideration of the effects of high radiation doses produced ...
A new model is presented for the total time during a space mission that specified solar proton flux ...
The effects that solar proton events have on microelectronics and solar arrays are important conside...
Ratios of solar to trapped proton fluences were computed for circular-orbit, geocentric space missio...
To plan and design safe and reliable space missions, it is necessary to take into account the effect...
In an earlier paper presented at ICES in 2015, we investigated solar particle event (SPE) radiation ...
The least number of proton events and ground-level enhancements was recorded in the solar cycle 24 w...
The United States operates a space weather service to provide information on space hazards including...
An empirical model for energetic solar proton fluxes is presented. With this model, the effects of s...
The total dose in rads-tissue from solar protons was tabulated for weekly time intervals, and the nu...
Solar energetic particles (SEPs) pose a serious radiation hazard to spacecraft and astronauts. The h...
The high-energy protons from solar energetic particle (SEP) events present a hazard to space systems...
Treballs Finals de Grau de Física, Facultat de Física, Universitat de Barcelona, Curs: 2018, Tutora:...
A probabilistic model of cumulative solar heavy ion energy and LET spectra is developed for spacecra...
The probability with which any given proton fluence level will be exceeded during a space mission is...
Manned space missions to Mars require consideration of the effects of high radiation doses produced ...
A new model is presented for the total time during a space mission that specified solar proton flux ...
The effects that solar proton events have on microelectronics and solar arrays are important conside...
Ratios of solar to trapped proton fluences were computed for circular-orbit, geocentric space missio...
To plan and design safe and reliable space missions, it is necessary to take into account the effect...
In an earlier paper presented at ICES in 2015, we investigated solar particle event (SPE) radiation ...
The least number of proton events and ground-level enhancements was recorded in the solar cycle 24 w...
The United States operates a space weather service to provide information on space hazards including...
An empirical model for energetic solar proton fluxes is presented. With this model, the effects of s...
The total dose in rads-tissue from solar protons was tabulated for weekly time intervals, and the nu...
Solar energetic particles (SEPs) pose a serious radiation hazard to spacecraft and astronauts. The h...
The high-energy protons from solar energetic particle (SEP) events present a hazard to space systems...
Treballs Finals de Grau de Física, Facultat de Física, Universitat de Barcelona, Curs: 2018, Tutora:...
A probabilistic model of cumulative solar heavy ion energy and LET spectra is developed for spacecra...
The probability with which any given proton fluence level will be exceeded during a space mission is...
Manned space missions to Mars require consideration of the effects of high radiation doses produced ...