The dS/CFT proposal of Anninos, Hartman, and Strominger relates quantum Vasiliev gravity in dS4 to a large N vector theory in three dimensions. We use this proposal to compute the Wheeler-de Witt wave function of a universe having a particular topology at future infinity. This amplitude is found to grow rapidly with the topological complexity of the spatial slice; this is due to the plethora of states of the Chern-Simons theory that is needed to impose the singlet constraint. Various mechanisms are considered which might ameliorate this growth, but none seems completely satisfactory. We also study the topology dependence in Einstein gravity by computing the action of complex instantons; the wave function then depends on a choice of contour through the space of metrics. The most natural contour prescription leads to a growth with genus similar to the one found in Vasiliev theory, albeit with a different power of Newton's constant.
Banerjee, S., Belin, A., Hellerman, S., Lepage-Jutier, A., Maloney, A., Radicevic, D., et al. (2013). Topology of Future Infinity in dS/CFT. JOURNAL OF HIGH ENERGY PHYSICS, 2013(11) [10.1007/JHEP11(2013)026].
Topology of Future Infinity in dS/CFT
Belin A;
2013
Abstract
The dS/CFT proposal of Anninos, Hartman, and Strominger relates quantum Vasiliev gravity in dS4 to a large N vector theory in three dimensions. We use this proposal to compute the Wheeler-de Witt wave function of a universe having a particular topology at future infinity. This amplitude is found to grow rapidly with the topological complexity of the spatial slice; this is due to the plethora of states of the Chern-Simons theory that is needed to impose the singlet constraint. Various mechanisms are considered which might ameliorate this growth, but none seems completely satisfactory. We also study the topology dependence in Einstein gravity by computing the action of complex instantons; the wave function then depends on a choice of contour through the space of metrics. The most natural contour prescription leads to a growth with genus similar to the one found in Vasiliev theory, albeit with a different power of Newton's constant.
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