Astrophysicists are conceptualizing a pioneering interplanetary mission designed to study the black hole closest to Earth. The proposal, presented in July 2025, aims to rigorously test Einstein's general theory of relativity under extreme conditions. The target black hole is situated between 20-25 light-years away, highlighting the mission's vast scale.
The mission concept includes a miniature probe equipped with a light-emitting device, propelled by powerful Earth-based lasers to speeds up to 30% of the speed of light. This advanced propulsion is crucial for the estimated 60-75 year journey to the black hole. Data transmission back to Earth is expected to take an additional 20-25 years, resulting in a total mission duration of approximately 100 years. The initial estimated cost for this endeavor is $1 trillion, with projections suggesting a potential reduction to around $30 billion due to anticipated technological advancements over the next two to three decades. This mission represents a significant step in understanding fundamental physics, potentially confirming or challenging current theories of general relativity in intense gravitational environments. The closest known stellar-mass black hole, Gaia BH1, is approximately 1,600 light-years away.
Key technologies for this mission, such as laser propulsion (including concepts like ablative laser propulsion and laser light sails), are areas of active research. These technologies aim to propel spacecraft by transferring momentum via laser beams. As of September 2025, the mission is in the conceptual planning stages, with the primary challenges being the development of necessary technologies and securing substantial funding. This undertaking signifies a major advancement in humanity's pursuit of cosmic knowledge and technological capability.