planck scale

Many believe this will turn out to be roughly comparable to the Planck scale.

The size of this problem is best seen by thinking in terms of the Planck scale.

Current theory is focused on the nature of spacetime at the Planck scale.

According to the theory, there is no meaning to distance at scales smaller than the Planck scale.

These approaches, among several others, are being considered to gain insight into Planck scale dynamics.

All three approaches seem to require that space and time be fragmentary at the Planck scale.

The report stated that "the viewpoint presented in this paper can be interesting as a possible approach of the Planck scale physics."

Is the Planck scale domain a seething mass of virtual black holes?

Nonrenormalizable interactions are weak only to the extent that the Planck scale is large.

So A would only be seen at the 20th decimal place with the usual Planck scale.

The reason for this is, among other things, that quantum field theories of gravity generally break down before reaching the Planck scale.

The temperature is comparable to the Planck scale.

"Ensign, I've already been scanned down to the Planck scale."

It is an interesting point of debate whether or not the idea of a continuum breaks down at the Planck scale.

Experimental evidence of Planck scale dynamics is difficult to obtain, and until quite recently was scant to non-existent.

The main scale on the Planckbrane would be the Planck scale.

Peeking below the Planck scale would require collisons of unimaginable energies.

The term Planck scale can also refer to a length scale or time scale.

No experiment current or planned will allow the precise probing or complete understanding of the Planck scale.

This is much higher than the proposed Planck scale in the ADD model.

Near the Planck scale, the structure of spacetime itself is constantly changing, due to quantum fluctuations.

In terms of size, the Planck scale is extremely small (many orders of magnitude smaller than a proton).

Contemporary physics has settled on the Planck scale as the most suitable scale for a unified theory.

According to contemporary convention, Planck scale is the scale of vacuum energy, below which space and time do not retain any physical significance.

It will take sheer innovation, not brute-force extensions of existing technology, to observe any features at the Planck scale.