The Radical Propulsion Needed to Catch the Solar Gravitational Lens Sending a mission to the Solar Gravitational Lens (SGL) is the most effective way of actually directly imaging a potentially habitable planet, as well as its atmosphere, and even possibly some of its cities. But, the SGL is somewhere around 650-900 AU away, making it almost 4 times farther than even Voyager 1 has traveled - and that’s the farthest anything human has made it so far. It will take Voyager 1 another 130+ years to reach the SGL, so obviously traditional propulsion methods won’t work to get any reasonably sized craft there in any reasonable timeframe. A new paper by an SGL mission’s most vocal proponent, Dr. Slava Turyshev of NASA’s Jet Propulsion Laboratory, walks through the different types of propulsion methods that might eventually get us there - and it looks like we would have a lot of work to do if we plan to do it anytime soon.

The Radical Propulsion Needed to Catch the Solar Gravitational Lens #Science #Space #SpaceTechnology #SolarGravitationalLens #SpaceExploration #PropulsionTechnology

www.universetoday.com/articles/the-radical-pro...

Is exoplanet imaging with the solar gravitational lens feasible? The solar gravitation lens (SGL) has much potential as a telescope. This point in space, located about 650 AU away from the sun, uses fundamental properties of physics to amplify the light from extremely far-away objects, allowing us to see them at a level of detail unachievable anywhere else. However, any SGL mission would face plenty of technical and physical challenges.

✨Imagine a telescope 650x Earth's distance from the Sun!🌌 It bends light to reveal distant worlds in incredible detail.🤯 #SolarGravitationalLens

Source: phys.org/news/2025-05-exoplanet-i...