Taking advantage of the total lunar eclipse
of January 2019, astronomers, using NASA’s
Hubble Space Telescope, have detected ozone
in Earth’s atmosphere.
In this observation, Hubble did not look at
Earth directly. Instead, astronomers used
the Moon as a mirror to reflect sunlight that
passed through Earth’s atmosphere.
This method serves as a proxy for how they
will observe planets around other stars in
search for worlds similar to our own.
Though numerous ground-based observations
of this kind have been done previously, this
is the first time ultraviolet light passing
through Earth’s atmosphere was observed
from space. The measurements from this experiment detected the
strong spectral fingerprint of ozone.
On Earth, photosynthesis over billions of
years is responsible for our planet’s high
oxygen levels and thick ozone layer. That’s
one reason why scientists think ozone or oxygen
could be a sign of life on another planet.
But finding ozone on distant worlds isn’t
an easy task. Ultraviolet observations like
this can best be conducted from space telescopes,
above the limiting effects of looking through
Earth’s skies, because ozone blocks most
ultraviolet light from beyond the atmosphere.
One of NASA’s major goals is to identify
habitable and inhabited planets. But how would
we know whether a distant planet has ozone
or not?
The atmospheres of some extrasolar planets
can be probed if that distant world passes
across the face of its parent star, called
a transit. During a transit, starlight filters
through the backlit exoplanet’s atmosphere.
Chemicals in the atmosphere leave their telltale signature
by filtering out certain colors of starlight.
Astronomers have used Hubble to observe the
atmospheres of several gas giant planets that
transit their stars. But terrestrial planets
are much smaller objects and their atmosphere
thinner, like the skin on an apple.
Therefore,
teasing out these signatures is much more difficult.
To prepare for future studies with larger
telescopes, astronomers used Hubble to conduct
experiments on a much closer and only known
inhabited terrestrial planet: Earth! Our planet’s
perfect alignment with the Sun and Moon during
a total lunar eclipse mimics the geometry
of a transiting terrestrial planet with its
star.
But the observations were also challenging
because the Moon is very bright, and its surface
is not a perfect reflector because it is mottled
with bright and dark areas.
The Moon is also so close to Earth that it
appears to move very quickly in the sky, making
it harder for Hubble to stay pointed at the
same location.
However, in spite of the challenges, the experiment
was an incredible success, and Hubble is supporting
the ongoing quest to find planets that are
similar to our own, and perhaps, one day,
find signs of life on other worlds.
[ SPACE TELESCOPES ]
