Cosmic rays coming from outside the Solar System bring these particles closer to the Sun, where they experience changes ...

An 11-year-long survey of the particles and antiparticles near our sun is unlocking our solar ... that unlocks a way to use ...

Most of the cosmic rays we get here on Earth come from the sun, but we’ve also picked up particles that we think are coming from other galaxies. Cosmic rays can tell us about space and the universe.

Scientists discover low-mass microquasars can accelerate cosmic rays, reshaping theories on high-energy particle origins.

This is because the dominant source of radiation on the ISS is galactic cosmic rays (GCR), which are deflected by the Sun’s magnetic field. GCR intensity is highest during solar minimum when the ...

It protects us from stray cosmic rays coming from elsewhere in the galaxy—but the effects of storms on the sun’s surface can also affect our telecommunications networks. The wind would also pose a ...

Amid a steady stream of galactic cosmic rays and solar energetic particles ... of charged particles varies as it interacts with the Sun’s magnetic field, but not much. The fluxes in GCR is ...

revealing correlations between solar modulation and cosmic ray movement. AMS measurements provide insights i... Cosmic rays and their byproduct, muons, may help scientists study tornado formation ...

Earth’s magnetic field acts as a protective barrier against the majority of these cosmic rays, and there is a measurable increase in radiation as you gain altitude and enter space. In space ...