Hubble Telescope Discovers Striking Spiral Galaxy in the 'Little Lion'
NGC 3430, a spiral galaxy located in the constellation Leo Minor, has caught the attention of the Hubble Space Telescope, Space reported. Situated 100 million light-years away from Earth, this galaxy showcases intricate features that have captivated astronomers and space enthusiasts alike.
The NGC 3430 galaxy exhibits a mesmerizing spiral pattern, with distinctive lanes of gas and dust swirling around its center. These swirling arms are adorned with vibrant blue patches, indicating regions where new stars are being born. In addition, the image captured by the Hubble telescope also reveals distant background galaxies as orange specks positioned at the top and bottom of the galaxy's photograph.
Interestingly, just outside the primary structure of NGC 3430, several neighboring galaxies lie beyond the scope of this particular image. One of these neighboring galaxies is close enough to exert gravitational influence on NGC 3430, contributing to the star-forming activity within it, as mentioned in a recent NASA statement.
While NGC 3430 and our very own Milky Way galaxy both exhibit a spiral shape, there is a key distinction between these celestial objects. The Milky Way belongs to the category of barred spiral galaxies, featuring a dense, oval-shaped structure comprising older stars that intersect the heart of our galaxy. Conversely, NGC 3430 has adopted the appearance of a "classic" or "normal" spiral galaxy, lacking a dense central bar of ancient stars while sporting visibly defined spiral arms.
During the early 1900s, NGC 3430's distinctive shape likely played a role in influencing astronomer Edwin Hubble's classification system for galaxies. In a groundbreaking 1916 paper, Hubble classified approximately 400 galaxies based on their appearance, thus laying the foundation for contemporary categorization schemes that astronomers employ today. Spiral, barred spiral, lenticular, elliptical, and irregular galaxies were among the classifications outlined in Hubble's system.
Moreover, observations conducted in the late 1990s revealed evidence of tidal interactions between NGC 3430 and a neighboring galaxy called NGC 3424, further contributing to our understanding of these celestial phenomena.
It is astonishing to contemplate that the Hubble Space Telescope, positioned just above Earth's atmosphere at an altitude of about 320 miles (515 kilometers), can produce such intricate and breathtaking views of the cosmos. Launched in 1990, this flagship NASA space telescope has continued to operate for three decades, recently extending its operational life through a shift to one-gyro mode after the failure of three other gyroscopes that help maintain precise pointing.
Last week, NASA's independent panel suggested three potential courses of action for the continued operation of the Hubble telescope within the confines of the planned budget. These options included a reduction in funding for general observer programs, a decrease in the number of instrument modes, or, as a last resort, the elimination of five out of nine instrument modes, possibly including infrared capabilities, which could be partially compensated by the upcoming James Webb Space Telescope. It is important to note that restoring lost instrument modes after the end of the mission may prove challenging due to the lack of expertise in relevant areas, as highlighted by the American Astronomical Society.
Earlier, SSP wrote about the discovery of 21 "dark" neutron stars orbiting Sun-like stars.