What Lies Within? Hubble’s Deep Dive Into the Structured Chaos of Leo A
The Hubble Space Telescope captured an image of Leo A, a dwarf irregular galaxy 2.6 million light-years away. This galaxy, crucial for studying the evolution of galaxies due to its proximity and distinct characteristics, reveals a sparse distribution of stars that allows light from distant galaxies to penetrate through.
This NASA Hubble Space Telescope image features the nearby dwarf irregular galaxy Leo A, located approximately 2.6 million light-years away. The relatively open distribution of stars in this diminutive galaxy allows light from distant background galaxies to shine through.
Importance of Dwarf Galaxies in Astronomy
Astronomers study dwarf galaxies like Leo A because they are numerous and may offer clues to how galaxies grow and evolve. Dwarf galaxies are small and dim making the most distant members of this galaxy type difficult to study. As a result, astronomers point their telescopes toward those that are relatively near to our own Milky Way galaxy, like Leo A.
Structural Insights and Isolation of Leo A
Leo A is one of the most isolated galaxies in our Local Group of galaxies. Its form appears as a roughly spherical, sparsely populated mass of stars with no obvious structural features like spiral arms.
The data that created this image came from four Hubble observing programs. Three of these looked at star formation histories of relatively nearby dwarf galaxies. The fourth sought to better determine the mass of our Local Group by looking at the motions of dwarf galaxies just outside of the Local Group.
Revealing Star Formation Patterns in Leo A
The Hubble observations that looked at star formation found distinct structural differences in the age and distribution of stars in the galaxy. Most of the younger stars are located in the middle of the galaxy, while the number of older stars increases as you move outward from the center.
Hubble observations also suggest that the galaxy’s halo of stars is about one-third larger than previous estimates. This distribution suggests that star formation in Leo A occurred from the outside-in, or that older stars efficiently migrated to the outskirts of Leo A in the early stages of its evolution.
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