Einstein-aether theory

where *G*N is Newton's constant and *g* is a metric with Minkowski signature. The Lagrangian density is ::\mathcal L=-R-K^{ab}_{mn}\nabla_a u^m\nabla_bu^n-\lambda (g_{ab}u^au^b-1). Here *R* is the Ricci scalar, \nabla is the covariant derivative and the tensor *K* is defined by ::K^{ab}_{mn}=c_1g^{ab}g_{mn}+ c_2\delta^a_m\delta^b_n +c_3\delta^a_n\delta^b_m+c_4u^au^bg_{mn}. Here the *c*i are dimensionless adjustable parameters of the theory. ## Solutions ### Stars Several spherically symmetric solutions to ae-theory have been found. Most recently Christopher Eling and Ted Jacobson have found solutions resembling stars and solutions resembling black holes. In particular, they demonstrated that there are no spherically symmetric solutions in which stars are constructed entirely from the aether. Solutions without additional matter always have either naked singularities or else two asymptotic regions of spacetime, resembling a wormhole but with no horizon. They have argued that static stars must have *static aether* solutions, which means that the aether points in the direction of a timelike killing vector. ### Black holes and potential problems However this is difficult to reconcile with static black holes, as at the event horizon there are no timelike Killing vectors available and so the black hole solutions cannot have static aethers. Thus when a star collapses to form a black hole, somehow the aether must eventually become static even very far away from the collapse. In addition the stress tensor does not obviously satisfy the Raychaudhuri equation, one needs to make recourse to the equations of motion. This is in contrast with theories with no aether, where this property is independent of the equations of motion. ## Experimental constraints In a 2005 paper, Nima Arkani-Hamed, Hsin-Chia Cheng, Markus Luty and Jesse Thaler have examined experimental consequences of the breaking of boost symmetries inherent in aether theories. They have found that the resulting Goldstone boson leads to, among other things, a new kind of Cherenkov radiation. In addition they have argued that spin sources will interact via a new inverse square law force with a very unusual angular dependence. They suggest that the discovery of such a force would be very strong evidence for an aether theory, although not necessarily that of Jacobson, *et al.* ## References ## References 1. (March 2012). ["Modified gravity and cosmology"](https://linkinghub.elsevier.com/retrieve/pii/S0370157312000105). *Physics Reports*. 2. (2004-03-08). ["Static post-Newtonian equivalence of general relativity and gravity with a dynamical preferred frame"](https://link.aps.org/doi/10.1103/PhysRevD.69.064005). *Physical Review D*. 3. (2004-07-19). ["Einstein-aether waves"](https://link.aps.org/doi/10.1103/PhysRevD.70.024003). *Physical Review D*. 4. (March 2012). ["Modified gravity and cosmology"](https://linkinghub.elsevier.com/retrieve/pii/S0370157312000105). *Physics Reports*. 5. (1987). "Singularity Prevention and Broken Lorentz Symmetry". *Classical and Quantum Gravity*. 6. (2001-06-26). ["Gravity with a dynamical preferred frame"](https://link.aps.org/doi/10.1103/PhysRevD.64.024028). *Physical Review D*. 7. Jacobson, Ted. (2008-01-10). "Einstein-aether gravity: A status report". 8. (2003). "Effective Field Theory for Massive Gravitons and Gravity in Theory Space". *Annals of Physics*. 9. (2006). "Spherical Solutions to Einstein-aether Theory: Static Aether and Stars". *Classical and Quantum Gravity*. 10. (2006). "Black Holes in Einstein-aether Theory". *Classical and Quantum Gravity*. 11. (2005). "Universal dynamics of spontaneous Lorentz violation and a new spin-dependent inverse-square law force". *Journal of High Energy Physics*. ::callout[type=info title="Wikipedia Source"] This article was imported from [Wikipedia](https://en.wikipedia.org/wiki/Einstein-aether_theory) and is available under the [Creative Commons Attribution-ShareAlike 4.0 License](https://creativecommons.org/licenses/by-sa/4.0/). Content has been adapted to SurfDoc format. Original contributors can be found on the [article history page](https://en.wikipedia.org/wiki/Einstein-aether_theory?action=history). ::