A first detailed study of the quantum decoherence of entangled gamma photons

Constraints on the quantum decoherence of entangled $\gamma$ quanta at the MeV scale, such as those produced following positron annihilation, have remained elusive for many decades. We present the first accurate, large acceptance experimental data for triple Compton scattering (TCS) of such entangled $\gamma$. An entanglement witness, the enhancement ($R$) of the azimuthal correlation between the final CS planes, is obtained where one of the $\gamma$ underwent intermediate Compton scattering (CS). $R$ is found to exceed the classical limit for scatter angles up to $\sim$40$^{\circ}$. The extracted $R$, over the range of the data ($0-70^{\circ}$), are better described by simple models in which entanglement is conserved or decohered proportional to the visibility of the scatter process. The work will help guide the development of a first theoretical description of decoherence at the MeV scale, a crucial next step for fundamental physics and entangled PET medical imaging.