Science fiction has long imagined
wormholes as a means of traversing the great distances between the stars in
short, by human standard, timespans. Such literary devices allow spaceships, in
essence, to cover great distances in hours or days instead of centuries that normal
space travel would require. Wormholes connect two points in space in a way that
the distance between them through the wormhole is much shorter than the
distance between them in normal space, like taking a cosmic shortcut.
General relativity tells us that to
make a wormhole requires enormous amounts of negative energy which, according
to Einstein’s equations, isn’t possible. But, the other grand realm of physics,
quantum mechanics, says not so fast.
In a study titled “Humanly
traversable wormholes,” Juan Maldacena of the Princeton Institute of Advanced
Study and Alexey Milekhin, a graduate of astrophysics student also at Princeton
University, claim that we can make such wormholes. They base their calculations
on the Randall-Sundrum II model, a theory that postulates a five-dimensional,
warped geometry for the universe instead of the one we are familiar with that
contains only normal four dimensions. Maldecena and Milekhin claim, using that
theory, stable, person-sized wormholes could be created.
You have to start, the researchers say, with a black hole that has a large magnetic charge. Such a special wormhole would allow spacefarers to traverse, say, 10,000 lightyears, one-tenth of the way across our galaxy, in a second. The only problem is that to the people at either end of the wormhole, that trip would appear to take 10,000 years, meaning these special wormholes really create shortcuts through time rather than space.
I bet they could still find volunteers
willing to take that trip.
Each month, I write an
astronomy-related column piece for the Oklahoman
newspaper. On the following day, I post that same column to my blog page.
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