Time Travel

Paragraph 1 Time travel took a small step away from science fiction and toward science recently when physicists discovered that sub-atomic particles known as neutrinos – progeny of the sun's radioactive debris – can exceed the speed of light. The unassuming particle – it is electrically neutral, small but with a “non-zero mass” and the ability to penetrate the human form undetected – is on its way to becoming a rock star of the scientific world.

Paragraph 2 Researchers from the European Organization for Nuclear Research (CERN) in Geneva sent the neutrinos hurtling through an underground corridor toward their colleagues at the Oscillation Project with Emulsion – Tracing Apparatus (OPERA) team 730 kilometers away in Gran Sasso, Italy. The neutrinos arrived promptly – so promptly, in fact, that they triggered what scientists are calling the unthinkable – that everything they have learned, known or taught stemming from the last one hundred years of the physics discipline may need to be reconsidered.

Paragraph 3 The issue at stake is a tiny segment of time – exactly sixty nanoseconds (which is sixty billionths of a second). This is how much faster than the speed of light the neutrinos managed to go in their underground travels and at a consistent rate (15,000 neutrinos were sent over three years). Even allowing for a margin of error of ten billionths of a second, this stands as proof that it is possible to race against light and win. The duration of the experiment was also calculated for and ruled out any possible lunar effects or tidal bulges in the earth's crust.

Paragraph 4 Nevertheless, there's plenty of reasons to remain scientific. According to Harvard University science historian Peter Galison, Einstein's relativity theory has been “pushed harder than any theory in the history of the physical sciences”. Yet each prior challenge has come to no avail, and relativity has so far refused to buckle.

Paragraph 5 So is time travel just around the corner? The prospect has certainly been wrenched much closer to the realm of possibility now that a major physical hurdle – the speed of light – has been cleared. If particles can travel faster than light, in theory traveling back in time is possible. How anyone harnesses that to some kind of helpful end is far beyond the scope of any modern technologies, however, and will be left to future generations to explore.

Paragraph 6 Certainly, any prospective time travelers may have to overcome more physical and logical hurdles than merely overtaking the speed of light. One such problem, posited by René Barjavel in his 1943 text Le Voyageur Imprudent, is the so-called grandfather paradox. Barjavel theorized that, if it were possible to go back in time, a time traveler could potentially kill his own grandfather. If this Scene were to happen, however, the time traveler himself would not be born, which is already known to be true. In other words, there is a paradox in circumventing an already known future; time travel is able to facilitate past actions that mean time travel itself cannot occur.

Paragraph 7 Other possible routes have been offered, though. For Igor Novikov, astrophysicist behind the 1980s theorem known as the self-consistency principle, time travel is possible within certain boundaries. Novikov argued that any event causing a paradox would have zero probability. It would be possible, however, to “a effect” rather than “change” historical outcomes if travelers avoid all inconsistencies. Averting the sinking of the Titanic, for example, would revoke any future imperative to stop it from sinking – it would be impossible. Saving selected passengers from the water and replacing them with realistic corpses would not be impossible, however, as the historical record would not be altered in any way.

Paragraph 8 A further possibility is that of parallel universes. Popularized by Bryce Seligman DeWitt in the 1960s (from the seminal formulation of Hugh Everett), the many-worlds interpretation holds that an alternative pathway for every conceivable occurrence actually exists. If we were to send someone back in time, we might therefore expect never to see him again – any alterations would divert that person down a new historical trajectory.

Paragraph 9 A final hypothesis, one of unidentified provenance, reroutes itself quite efficiently around the grandfather paradox. Non-existence theory suggests exactly that – a person would quite simply never exist if they altered their ancestry in ways that obstructed their own birth. They will still exist in person upon returning to the present, but any chain reactions associated with their actions will not be registered. Their “historical identity” will be gone.

Paragraph 10 So, will humans one day step across the same boundary that the neutrinos have? World-renowned astrophysicist Stephen Hawking believes that once spaceships can exceed the speed of light, humans could feasibly travel millions of years into the future in order to repopulate earth in the event of an upcoming apocalypse. This is because, as the spaceships accelerate into the future, time will slow down around them (Hawking concedes that bygone eras are off limits – this will violate the fundamental rule that cause comes before effect).

Paragraph 11 Hawking is therefore reserved yet optimistic. “Time travel was once considered scientific heresy, and I used to avoid talking about it for fear of being labeled a crank. These days I'm not so cautious.”