Then There’s Horrendously Bad Tuning

When there is a an almost unbelievably large disparity between measurements that should agree, perhaps we need to devote more effort to that type of problem too.

The theoretical vacuum energy density estimated on the basis of the standard model of particle physics and very general quantum assumptions is 59 to 123 orders of magnitude larger than the measured vacuum energy density for the observable universe which is determined on the basis of the standard model of cosmology and empirical data. This enormous disparity between the expectations of two of our most widely accepted theoretical frameworks demands a credible and self-consistent explanation, and yet even after decades of sporadic effort a generally accepted resolution of this crisis has not surfaced.

The vacuum energy density crisis is perhaps the most dramatic manifestation of the fact that physics is still very much a “divided house”, with quantum physics ruling the microcosm and general relativity dominating the macrocosm. Within their respective domains, quantum physics and general relativity are thought to be on very strong empirical and theoretical footing, so it is very disconcerting to find that these two foundational frameworks strongly contradict each other when they meet at the “intersection” of the vacuum energy density. Nobelist Frank Wilczek (2001) has characterized the situation as follows. “We do not understand the disparity. In my opinion, it is the biggest and most profound gap in our current understanding of the physical world. … [The solution to the problem] might require inventing entirely new ideas, and abandoning old ones we thought to be well-established. … Since vacuum energy density is central to both fundamental physics and cosmology, and yet poorly understood, experimental research into its nature must be regarded as a top priority for physical science.”

Very recently, however, a discrete self-similar cosmological paradigm based on the fundamental principle of discrete scale invariance has been found to offer a rationale for reducing the vacuum energy density disparity by at least 115 orders of magnitude, and possibly to eliminate the vacuum energy density crisis entirely.

If you would like read the full published paper entitled “Towards A Resolution Of The Vacuum Energy Density Crisis”, please click on the following link: https://arxiv.org/pdf/0901.3381.pdf . This paper explains why the particle physics estimate of the VED is preposterous, and how the discrete self-similar scaling of Discrete Scale Relativity offers a credible resolution for this long-standing crisis at the heart of theoretical physics.