Tuesdays 10:30 - 11:30 | Fridays 11:30 - 12:30
Showing votes from 2016-04-01 12:30 to 2016-04-05 11:30 | Next meeting is Friday May 1st, 11:30 am.
We discuss various modified dispersion relations motivated by quantum gravity which might affect the propagation of the recently observed gravitational-wave signal of the event GW150914. We find that the bounds set by the data on the characteristic quantum-gravity mass scale $M$ are too weak to constrain these scenarios and, in general, much weaker than the expected $M> 10^4\,\text{eV}$ for a correction to the dispersion relation linear in $1/M$. We illustrate this issue by giving lower bounds on $M$, plus an upper bound coming from constraints on the size of a quantum ergosphere. We also show that a phenomenological dispersion relation $\omega^2 = k^2(1+\alpha k^n/M^n)$ is compatible with observations and, at the same time, has a phenomenologically and theoretically viable mass $10\,\text{TeV}<M<M_{\rm Pl}$ only in the quite restrictive range $0.44<n< 0.68$. Remarkably, this is the domain of multiscale spacetimes but not of known quantum-gravity models.