Harnessing the energy from nuclear fusion could provide a more efficient and powerful propulsion system. However, achieving controlled fusion has been a long-standing challenge.

In the annals of 21st-century cinema, few films command the same level of reverent awe as Christopher Nolan’s 2014 masterpiece, Interstellar . It is a film that demands immersion: the crushing weight of a black hole’s gravity, the haunting silence of deep space, and Hans Zimmer’s thunderous organ score are all designed for the largest screen and the loudest speakers. Yet, for millions of viewers, the first—or even the hundredth—experience of this modern epic occurs not in an IMAX theater, but on a gray-market streaming site known as .

One of the most immediate and formidable challenges to interstellar travel is the vast distance between stars. Even the closest star to the Sun, Proxima Centauri, is about 4.24 light-years away. A light-year, the distance light travels in one year, is approximately 9.46 trillion kilometers. This means that conventional spacecraft, which rely on chemical propulsion, would take tens of thousands of years to reach another star system, making the journey practically impossible for humans with a biological lifespan.

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