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Summary
| DescriptionCaution Planets under construction (potw2523a).jpg |
English: Astronomers may have caught a still-forming planet on camera, hidden somewhere in this stellar snapshot.
Today’s Picture of the Week is a close-up of the star RIK 113, seen here surrounded by a cloud of gas and dust called a protoplanetary disc. These discs are a common feature around young stars, containing all the building blocks needed to make a new planet. Over time, these dusty discs will fragment and condense under the influence of gravity, forming larger objects like protoplanets. These planetary embryos carve out gaps in the dust around them, forming the intricate, ring-like structures that we can see in this disc. The true complexity of this protoplanetary disc was first uncovered by theAtacama Large Millimeter/submillimeter Array (ALMA) in a study published last year. These results showed the presence of a gap, which hinted at a planet-like object embedded within it. This prompted another team of astronomers, led by Christian Ginski at the University of Galway, Ireland, to followup with observations from ESO’s Very Large Telescope (VLT). Using the SPHERE instrument they found that the inner ring has intriguing spiral features. A detailed analysis of the data uncovered not just one, but two potential signals from planets around RIK 113, not far from the original detectionwith ALMA. For now, these signals are still more of a suggestion than a direct confirmation. However, with two separate studies from both ALMA and the VLT indicating the presence of at least one planet, these results are extremely promising for a future discovery. Link Research paper, accepted forpublication in Astronomy&Astrophysics arxiv: https://arxiv.org/abs/2506.05892 |
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| Date | 9 June 2025 (upload date) | ||
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| Author | ESO/C. Ginski et al. | ||
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Licensing
This media was created by the European Southern Observatory (ESO).
Their website states: "Unless specifically noted, the images, videos, and music distributed on the public ESO website, along with the texts of press releases, announcements, pictures of the week, blog posts and captions, are licensed under a Creative Commons Attribution 4.0 International License, and may on a non-exclusive basis be reproduced without fee provided the credit is clear and visible." To the uploader: You must provide a link (URL) to the original file and the authorship information if available. | |
This file is licensed under the Creative Commons Attribution 4.0 International license.
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9 June 2025
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356,642 byte
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| Date/Time | Thumbnail | Dimensions | User | Comment | |
|---|---|---|---|---|---|
| current | 07:12, 9 June 2025 | 2,000 × 2,000 (348 KB) | Meli thev | Uploaded a work by ESO/C. Ginski et al. from https://www.eso.org/public/images/potw2523a/ with UploadWizard |
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| Credit/Provider | ESO/C. Ginski et al. |
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| Source | European Southern Observatory |
| Short title |
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| Image title |
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| Usage terms |
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| Date and time of data generation | 06:00, 9 June 2025 |
| JPEG file comment | Astronomers may have caught a still-forming planet on camera, hidden somewhere in this stellar snapshot. Today’s Picture of the Week is a close-up of the star RIK 113, seen here surrounded by a cloud of gas and dust called a protoplanetary disc. These discs are a common feature around young stars, containing all the building blocks needed to make a new planet. Over time, these dusty discs will fragment and condense under the influence of gravity, forming larger objects like protoplanets. These planetary embryos carve out gaps in the dust around them, forming the intricate, ring-like structures that we can see in this disc. The true complexity of this protoplanetary disc was first uncovered by the Atacama Large Millimeter/submillimeter Array (ALMA) in a study published last year. These results showed the presence of a gap, which hinted at a planet-like object embedded within it. This prompted another team of astronomers to follow up with observations from ESO’s Very Large Telescope (VLT). Using the SPHERE instrument they found that the inner ring has intriguing spiral features. A detailed analysis of the data uncovered not just one, but two potential signals from planets around RIK 113, not far from the original detection with ALMA. For now, these signals are still more of a suggestion than a direct confirmation. However, with two separate studies from both ALMA and the VLT indicating the presence of at least one planet, these results are extremely promising for a future discovery. Link Research paper, accepted for publication in Astronomy & Astrophysics |
| Software used | Adobe Photoshop 26.6 (Windows) |
| File change date and time | 11:38, 5 June 2025 |
| Date and time of digitizing | 11:57, 27 May 2025 |
| Date metadata was last modified | 13:38, 5 June 2025 |
| Unique ID of original document | xmp.did:13f62d7f-8840-3847-ad19-9962586ed119 |
| Keywords | RIK 113 |
| Contact information |
Karl-Schwarzschild-Strasse 2 Garching bei München, None, D-85748 Germany |
| IIM version | 4 |
