String Theory: Bending Space and Time - dummies

String Theory: Bending Space and Time

By Andrew Zimmerman Jones, Daniel Robbins

In relativity, gravity bends our four space-time dimensions, but in string theory more dimensions are bound up in other ways. Space-time is viewed as a smooth “fabric,” but that smooth fabric can be bent and manipulated in various ways. In relativity and modern cosmology, the universe has an inherent curvature.

The typical approach to string theory’s extra dimensions has been to wind them up in a tiny, Planck length–sized shape. This process is called compactification. In the 1980s, it was shown that the extra six space dimensions of superstring theory could be compactified into Calabi-Yau spaces.

Since then, other methods of compactification have been offered, most notably G2 compactification, spin-bundle compactification, and flux compactification. For the purposes of this book, the details of the compactification don’t matter.

To picture compactification, think of a garden hose. If you were an ant living on the hose, you’d live on an enormous (but finite) universe. You can walk very far in either of the length directions, but if you go around the curved dimension, you can only go so far. However, to someone very far away, your dimension — which is perfectly expansive at your scale — seems like a very narrow line with no space to move except along the length.

This is the principle of compactification — we can’t see the extra universes because they’re so small that nothing we can do can ever distinguish them as a complex structure. If we got close enough to the garden hose, we’d realize that something was there, but scientists can’t get close to the Planck length to explore extra compactified dimensions.

Of course, some recent theories have proposed that the extra dimensions may be larger than the Planck length and theoretically in the range of experiment.

Still other theories exist in which our region of the universe only manifests four dimensions, even though the universe as a whole contains more. Other regions of the universe may exhibit additional dimensions. Some radical theories even suppose that the universe as a whole is curved in strange ways.