Lower Bound on the Propagation Speed of Gravity from Gravitational Cherenkov Radiation

Guy D. Moore; Ann E. Nelson

Lower Bound on the Propagation Speed of Gravity from Gravitational Cherenkov Radiation

Guy D. Moore, Ann E. Nelson

Abstract

Recently, interesting 4-D Lorentz violating models have been proposed, in which all particles have a common maximum velocity $c$, but gravity propagates (in the preferred frame) with a different maximum velocity $c_g \neq c$. We show that the case $c_g < c$ is very tightly constrained by the observation of the highest energy cosmic rays. Assuming a galactic origin for the cosmic rays gives a conservative bound of $c-c_g < 2 \times 10^{-15} c$; if the cosmic rays have an extragalactic origin the bound is orders of magnitude tighter, of order $c-c_g < 2 \times 10^{-19} c$.

Lower Bound on the Propagation Speed of Gravity from Gravitational Cherenkov Radiation

Abstract

Recently, interesting 4-D Lorentz violating models have been proposed, in which all particles have a common maximum velocity

, but gravity propagates (in the preferred frame) with a different maximum velocity

. We show that the case

is very tightly constrained by the observation of the highest energy cosmic rays. Assuming a galactic origin for the cosmic rays gives a conservative bound of

; if the cosmic rays have an extragalactic origin the bound is orders of magnitude tighter, of order

Lower Bound on the Propagation Speed of Gravity from Gravitational Cherenkov Radiation

Abstract

Lower Bound on the Propagation Speed of Gravity from Gravitational Cherenkov Radiation

Abstract

Paper Structure

Table of Contents