Our atmosphere protects us from a hostile space radiation environment comprising high energy particles of solar and intergalactic origin. Solar radiation is significant during unpredictable and short lived solar flares and coronal mass ejections (CMEs); however, galactic cosmic radiation (GCR) is omnipresent. The GCR intensity varies with latitude, longitude, and time due to effects of solar activity on the interplanetary magnetic field, as well as the Earth's magnetic field. Space radiation collides with gases in the atmosphere, leading to a complex shower of high energy radiation, the intensity and composition of which varies spatially and temporally. Excessive exposure to radiation can damage DNA and lead to long-term health effects such as an increased risk of cancer. <br><br> Resulting radiation levels at commercial aircraft altitudes are greater than at sea level. Aircrew are classified as radiation workers in some countries; however, planning to limit their exposure, and monito
https://amentum.space7 endpoints available
/cari7/ambient_doseThe ambient dose equivalent rate calculated for a single particle type, or accumulated over all particle types.
/parma/ambient_doseThe ambient dose equivalent rate calculated for a single particle type, or accumulated over all particle types.
/route/ambient_doseCalculate the ambient equivalent dose along a great circle flight route.
/cari7/effective_doseThe effective dose rate calculated for a single particle type, or accumulated over all particle types.
/parma/effective_doseThe effective dose rate calculated for a single particle type, or accumulated over all particle types.
/route/effective_doseCalculate the total effective dose along a great circle flight route.
/parma/differential_intensityThe energy differential intensity of a particle at a given zenith angle.
Our atmosphere protects us from a hostile space radiation environment comprising high energy particles of solar and intergalactic origin. Solar radiation is significant during unpredictable and short lived solar flares and coronal mass ejections (CMEs); however, galactic cosmic radiation (GCR) is omnipresent. The GCR intensity varies with latitude, longitude, and time due to effects of solar activity on the interplanetary magnetic field, as well as the Earth's magnetic field. Space radiation collides with gases in the atmosphere, leading to a complex shower of high energy radiation, the intensity and composition of which varies spatially and temporally. Excessive exposure to radiation can damage DNA and lead to long-term health effects such as an increased risk of cancer. <br><br> Resulting radiation levels at commercial aircraft altitudes are greater than at sea level. Aircrew are classified as radiation workers in some countries; however, planning to limit their exposure, and monito
https://amentum.space7 endpoints available
/cari7/ambient_doseThe ambient dose equivalent rate calculated for a single particle type, or accumulated over all particle types.
/parma/ambient_doseThe ambient dose equivalent rate calculated for a single particle type, or accumulated over all particle types.
/route/ambient_doseCalculate the ambient equivalent dose along a great circle flight route.
/cari7/effective_doseThe effective dose rate calculated for a single particle type, or accumulated over all particle types.
/parma/effective_doseThe effective dose rate calculated for a single particle type, or accumulated over all particle types.
/route/effective_doseCalculate the total effective dose along a great circle flight route.
/parma/differential_intensityThe energy differential intensity of a particle at a given zenith angle.