This NASA/ESA Hubble Space Telescope image features
the galaxy NGC 2775.
ESA/Hubble & NASA, F. Belfiore, J. Lee and the
PHANGS-HST Team
This NASA/ESA Hubble Space Telescope image
features a galaxy that’s hard to categorize. The galaxy in question is NGC
2775, which lies 67 million light-years away in the constellation Cancer (the
Crab). NGC 2775 sports a smooth, featureless center that is devoid of gas,
resembling an elliptical galaxy. It also has a dusty ring with patchy star
clusters, like a spiral galaxy. Which is it: spiral or elliptical — or neither?
Because we can only view NGC 2775 from
one angle, it’s difficult to say for sure. Some researchers classify NGC 2775
as a spiral galaxy because of its feathery ring of stars and dust, while others
classify it as a lenticular galaxy. Lenticular galaxies have features common to
both spiral and elliptical galaxies.
Astronomers aren’t certain of exactly
how lenticular galaxies come to be, and they might form in a variety of ways.
Lenticular galaxies might be spiral galaxies that merged with other galaxies,
or that have mostly run out of star-forming gas and lost their prominent spiral
arms. They also might have started out more like elliptical galaxies, then
collected gas into a disk around them.
Some evidence suggests that NGC 2775
merged with other galaxies in the past. Invisible in this Hubble image, NGC
2775 has a tail of hydrogen gas that stretches almost 100,000 light-years
around the galaxy. This faint tail could be the remnant of one or more galaxies
that wandered too close to NGC 2775 before being stretched apart and absorbed.
If NGC 2775 merged with other galaxies in the past, it could explain the
galaxy’s strange appearance today.
Most astronomers classify NGC 2775 as a
flocculent spiral galaxy. Flocculent spirals have poorly defined, discontinuous
arms that are often described as “feathery” or as “tufts” of stars that loosely
form spiral arms.
Hubble previously released an image of NGC 2775 in 2020. This new version adds observations of a specific wavelength of red light emitted by clouds of hydrogen gas surrounding massive young stars, visible as bright, pinkish clumps in the image. This additional wavelength of light helps astronomers better define where new stars are forming in the galaxy.
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