ANSTO helping to ensure safety of astronauts in space


Key Points

  • The International Space Station is currently visible over Australia away from bright city lights
  • ANSTO is collaborating with French scientists on research to understand the impact of secondary radiation on the astronauts aboard the International Space Station
  • ANSTO has unique capabilities to support space research

At this time of the year, if you are away from bright city lights and know when and where to look, it is possible to see the International Space Station (ISS) passing overhead without a telescope.

The ISS can rival the brilliant planet Venus and appears as a bright light moving across the night sky.

ANSTO has a connection to the International Space Station, in that it is supporting research to understand the impact of secondary radiation on the astronauts aboard it.

International Space Station

The ISS is a large spacecraft that orbits around the Earth at an average of 400 km above the surface, traveling approximately 8 km per second in the thermosphere.

It shares the altitude with low orbit Earth satellites, where the temperature can reach 2500 degrees.

International astronauts, who operate a science lab to undertake research in the reduced gravity environment of the space station, have lived in the ISS since the year 2000.

One of the major hazards for astronauts in the ISS is exposure to primary ionising radiation and secondary particles, which pose potential risks.

Space radiation is generated by particles trapped in the magnetic field, particles from solar flares and galactic cosmic rays and high-energy protons and heavy ions from outside our solar system.

The shielding on the station was designed to protect astronauts and electronic equipment from the harsh environment in space.

Astronauts aboard the ISS

Astronauts aboard the International Space Station

But secondary particles can be also generated when the primary radiation interacts with the protective materials on the outside of the space station.

And while the dose of the secondary particles may not be that high, the cumulative effects from longer periods in space are not known.

Like primary radiation, the exposure could damage human DNA and lead to illness or injury

A team of ANSTO health researchers, staff at the Centre for Accelerator Science and Dr Melanie Ferlazzo, a postdoc from the French National Institute of Health and Medical Research (INSERM), and scientists from the French Space Agency (CNES), are collaborating on investigations to determine the impact of secondary particles on human cells using the new microprobe beamline

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