It’s a bitter pill to swallow, but it’s starting to look as if Einstein might just have been right about that speed of light thing. From apparently superluminal radio sources in deep space, to the neutrinos that were supposed to be arriving ahead of schedule at the Grand Sasso experiment in Italy, every apparent exception to Einstein’s ultimate speed law has turned out to be a phantom. Even in the quantum realm, where entangled particles seem to communicate with each other instantaneously across any distance, no useful information is shared at anything other than the speed of light.
This is a particular blow if you happen to enjoy the galaxy-spanning fantasies of Star Trek, Star Wars and the like. Dreams of warp drives and hyperspace are just that — dreams.
But that doesn’t mean that interstellar travel is itself a fantasy. Travel below the speed of light — but as arbitrarily close to it as you wish — is perfectly feasible. Of course, that isn’t the same thing as saying it will be easy. Imagining the technologies that will carry us to the stars places us in roughly the same position as Leonard da Vinci, when he first sketched the concept behind the helicopter. Getting close to the speed of light will demand energies and materials beyond anything within our current capabilities. Chemical rockets certainly won’t cut it, nor the ion propulsion systems employed by some spacecraft. Even dauntingly difficult fusion power wouldn’t be up to the job. But perhaps harnessing antimatter, or the power of miniature black holes, may just give us the tools. At the moment we can make antimatter in tiny quantities, but not nearly enough to fuel a ship. And while we suspect that miniature black holes may exist, and may even be produced in high-energy physics experiments like the Large Hadron Collider, so far they’ve proven elusive.
I have no doubts thast they will. To read more, click here.