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- Earth-sized exoplanets are hard to find<\/strong> because they\u2019re so small and so far away from us. Is there a better way to search for them?<\/li>\n
- A hybrid of both ground- and space-based telescopes<\/strong> could be used, an international team of researchers now says.<\/li>\n
- Large ground-based telescopes, together with space-based starshades,<\/strong> could help astronomers directly observe more Earth-sized exoplanets.<\/li>\n<\/ul>\n
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A new way to find Earth-like exoplanets<\/h3>\n
Astronomers have been detecting a growing number of Earth-sized exoplanets in recent years. But analyzing their atmospheres or even imaging them is much more difficult because they are small and so far away. Astronomers use ground-based and space telescopes to find these worlds, but both have limitations. Is there a better way? An international team of researchers said on March 6, 2026, that they propose using a hybrid observatory setup \u2013 the Hybrid Observatory for Earth-like Exoplanets (HOEE) \u2013 with features of both types of telescopes. Essentially, it would be a ground-based telescope with a space-based starshade. A key goal would be to find exoplanets that are similar to our own planet.<\/p>\n
The starshade would block the light coming from the star, allowing astronomers to use the telescope on the ground with the needed angular resolution and sensitivity to directly detect Earth-sized exoplanets.<\/p>\n
Laurence Tognetti wrote about the new starshade concept for Universe Today<\/em> on March 9, 2026.<\/p>\n
Ahmed Soliman, the lead author of the new study, is a scientist and technologist at NASA\u2019s Jet Propulsion Laboratory.<\/p>\n
The researchers published their peer-reviewed concept in Nature Astronomy<\/em> on February 27, 2026.<\/p>\n
![\"Smiling](\"https:\/\/earthsky.org\/upl\/2026\/03\/Ahmed-Soliman-NASA-Jet-Propulsion-Laboratory.jpg\")
Ahmed Soliman is a scientist and technologist at NASA\u2019s Jet Propulsion Laboratory and the lead author of the new study about using an orbital starshade and a large ground-based telescope to find Earth-sized exoplanets. Image via NASA\/ Jet Propulsion Laboratory.<\/figcaption><\/figure>\n Limitations of ground-based and space-based telescopes<\/h3>\n
Space-based telescopes, such as the James Webb Space Telescope and the upcoming Nancy Grace Roman Space Telescope, use internal coronagraphs instead of a starshade to help block the light of the stars they are observing. This helps greatly with trying to detect exoplanets. One drawback, however, is that this technique is best for larger, gas giant-type planets such as Jupiter. But there isn\u2019t enough contrast to easily detect smaller rocky planets similar to Earth.<\/p>\n
Ground-based telescopes have their own limitations. Turbulence in Earth\u2019s atmosphere and instrumental contrast issues also hinder the search for smaller planets. As Soliman told Universe Today<\/em>:<\/p>\n
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Many people think only large space telescopes like Nancy Grace Roman Space Telescope, James Webb Space Telescope or the proposed Habitable Worlds Observatory can search for life beyond our solar system, but they aren\u2019t aware of what our NASA NIAC funded study \u2013 Hybrid Observatory for Earth-like Exoplanets (HOEE) \u2013 can do.<\/p>\n
Current space telescopes such as the James Webb Space Telescope and the soon-to-fly Nancy Grace Roman Space Telescope use internal coronagraphs for direct imaging, but their contrast is not deep enough to directly detect true Earth-like planets in habitable zones. Existing ground-based telescopes also lack the required contrast and resolution. A hybrid system that combines a space-based starshade with large ground telescopes would greatly improve starlight suppression and angular resolution, making direct detection of Earth-like exoplanets possible.<\/p>\n<\/blockquote>\n
![\"Blue](\"https:\/\/earthsky.org\/upl\/2026\/03\/hybrid-starshade-telescope-exoplanets-spectra-February-19-2022.png\")
View larger. | This diagram depicts how the Hybrid Observatory for Earth-like Exoplanets (HOEE) mission could observe the planetary spectra in hundreds of planetary systems. Image via John Mather\/ NASA.<\/figcaption><\/figure>\n The best of both worlds: hybrid telescope concept<\/h3>\n
So, is there a better way? The researchers propose a unique solution: using aspects of both<\/em> ground-based and space-based telescopes.<\/p>\n
The HOEE study suggests using ground-based telescopes with orbiting starshades to block the stars\u2019 light. That way, the starshades block the light, which ground-based telescopes lack, while the ground-based telescopes have the angular resolution and sensitivity needed. It\u2019s basically the best of both worlds.<\/p>\n
![\"A](\"https:\/\/earthsky.org\/upl\/2026\/03\/starshade-space-telescope-artist-concept-August-26-2016.jpeg\")
View larger. | This is a similar kind of starshade concept, where a giant starshade would be deployed ahead of a space telescope to block the light from the star it is looking at. Image via NASA.<\/figcaption><\/figure>\n Testing the concept<\/h3>\n
To test the idea, the research team used analysis related to the upcoming Extremely Large Telescope (ELT), Thirty Meter Telescope (TMT) and the upcoming Giant Magellan Telescope (GMT). The team included Nobel laureates John C. Mather and Michel Mayor, who discovered the first exoplanet orbiting a sunlike star.<\/p>\n
The testing was successful and showed that the hybrid concept should work. The combination of both types of telescopes would produce the contrast needed to directly detect Earth-sized exoplanets.<\/p>\n
Right now, this is still a concept, not an actual space mission. But if it is used, Soliman said it could find dozens of Earth-sized planets. And, remarkably, it could identify those planets in only minutes. Plus, it could find potential biosignatures, if they exist, in only a matter of hours. This would be under moderate weather conditions on Earth and for planets within the habitable zones of their stars, where water might exist.<\/p>\n
There is also a similar project under development by the Jet Propulsion Laboratory to design a giant starshade that would be placed in front of a space telescope to block the light from the star it is observing.<\/p>\n
Bottom line: Finding Earth-sized or potentially Earth-like exoplanets is not easy. A new proposal suggests combining an orbital starshade with large ground-based telescopes.<\/p>\n
Source: The observation of Earth-like exoplanets with ground-based telescopes and a shared orbiting starshade<\/p>\n
Via Universe Today<\/p>\n
Read more: Earth-like ocean planets plentiful for red dwarf stars?<\/p>\n
Read more: Habitable water worlds don\u2019t have to be Earth-like<\/p>\n
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\n - A hybrid of both ground- and space-based telescopes<\/strong> could be used, an international team of researchers now says.<\/li>\n