On the Trace-Free Einstein Equations as a Viable Alternative to General Relativity
Aug, 2010
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Abstract: (arXiv)
The quantum field theoretic prediction for the vacuum energy density leads to a value for the effective cosmological constant that is incorrect by between 60 to 120 orders of magnitude. We review an old proposal of replacing Einstein's Field Equations by their trace-free part (the Trace-Free Einstein Equations), together with an independent assumption of energy--momentum conservation by matter fields. While this does not solve the fundamental issue of why the cosmological constant has the value that is observed cosmologically, it is indeed a viable theory that resolves the problem of the discrepancy between the vacuum energy density and the observed value of the cosmological constant. However, one has to check that, as well as preserving the standard cosmological equations, this does not destroy other predictions, such as the junction conditions that underlie the use of standard stellar models. We confirm that no problems arise here: hence, the Trace-Free Einstein Equations are indeed viable for cosmological and astrophysical applications.- energy: density
- vacuum state: energy
- graviton: interaction
- gravitation: effect
- cosmological constant
- Einstein equation
- energy-momentum: conservation law
- spin: 2
- mass: density
- Friedman model
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