
The idea, once again, is that the false vacuum energy of the scalar field responsible for inflation, (the hypothetical exponential expansion of the very early universe), may not have decayed to zero, and, since the time of inflation, may have been residing in another false vacuum state of much lower, but non-zero energy. It is suggested by Krauss and James Dent that the dark energy detected by cosmologists in the past decade, may simply be this residual false vacuum energy.
A false vacuum state is 'metastable' in the sense that it is a state of temporary stability, but one which is prone to decay, much like the nucleus of a radioactive atom. Krauss and Dent point out that in quantum mechanics, the survival probability of a metastable state will decrease exponentially until a critical cut-off time, at which point the survival probability will only decrease according to a power law. Given that a false vacuum expands exponentially, there will be a net increase in the volume of space in a false vacuum state after this cut-off time. Krauss argues that whilst the metastable residual false vacuum of our universe may have reached this critical cut-off, the act of observing the dark energy may have reset the decay according to the 'quantum zeno effect'. The consequence is that mankind's actions may have significantly increased the probability that the residual false vacuum will decay to the true vacuum, destroying all the structure in our universe.
With an irony that may have been lost on some readers, The Daily Telegraph's Roger Highfield refers to these as "damaging allegations."
There are also at least two reasons why the claims shouldn't be taken seriously. Firstly, as Max Tegmark points out in New Scientist, the quantum zeno effect does not require humans to make observations: "Galaxies have 'observed' the dark energy long before we evolved. When we humans in turn observe the light from these galaxies, it changes nothing except our own knowledge." Secondly, Krauss and Dent's assumption that dark energy can be equated with the energy density of a scalar field is inconsistent with the current observational evidence, which suggests that the dark energy is a cosmological constant. The energy density due to a cosmological constant is a property of space, not a property of any matter field in space. The energy density due to a cosmological constant is literally constant in space and time, unlike that attributable to the scalar fields postulated to explain dark energy.
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