Abstract
We study perturbative unitarity in the scalar sector of the Myers-Pospelov model. The model introduces a preferred four-vector $n$ which breaks Lorentz symmetry and couples to a five-dimension operator. When the preferred four-vector is chosen in the pure timelike or lightlike direction, the model becomes a higher time derivative theory, leading to a cubic dispersion relation. Two of the poles are shown to be perturbatively connected to the standard ones, while a third pole, which we call the Lee-Wick-like pole, is associated to a negative metric, in Hilbert space, threatening the preservation of unitarity. The pure spacelike case is a normal theory in the sense that it has only two solutions both being small perturbations over the standard ones. We analyze perturbative unitarity for purely spacelike and timelike cases using the optical theorem and considering a quartic self-interaction term. By computing discontinuities in the loop diagram, we arrive at a pinching condition which determines the propagation of particles and Lee-Wick-like particles through the cut. We find that the contribution for Lee-Wick-like particles vanishes for any external momenta, leaving only the contribution of particles, thus preserving one-loop unitarity in both cases.
Highlights
The breakdown of Lorentz symmetry at the Planck mass scale mP 1⁄4 1019 GeV has been intensively studied in the last two decades
From the cut diagram of the right, we identify the sum over intermediate states, the conservation of momenta coded in the first delta, and the two propagators put on shell through the deltas of the dispersion relation
In this work we have focused on the Myers-Pospelov effective field theory with dimension-five Lorentz violating operators in order to study one-loop unitarity
Summary
The breakdown of Lorentz symmetry at the Planck mass scale mP 1⁄4 1019 GeV has been intensively studied in the last two decades. One advantage is that it allows us to include the most general form of Lorentz invariance violation, without resorting to a particular theory or method of calculation to get down to a low-energy model. Many of these studies have been given within the effective framework of the standard model extension (SME) [2]. The SME encompasses all the possible effective terms describing Lorentz symmetry violation in matter and gravity sectors. We study unitarity in a Lorentz violating model with higher-order operators in light of the Lee-Wick studies [16].
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
