Contact process with viral load

Abstract: In this article, we introduce two new variants of the contact process. In the first variant, instead of just being infected, individuals carry a viral load, indicating how severe the infection is. If the viral load reaches zero, an individual is considered to be healthy and if an individual becomes infected, a viral load of 1 is assigned that evolves according to a Birth-Death process. Thus, in this model, individuals with a higher viral load are more infectious, and the recovery times, are in most cases, not exponentially distributed. In fact, they can be chosen to be distributed according to a power-law distribution. For this model, we study the phase transition of survival and of an existing non-trivial upper invariant law. In the case where the infection rate is constant, that is, it does not depend on the viral load, we derive a duality relation to another new variant, where individuals are always infected and never truly healthy. They are either actively infected or the infection is in a dormant state, which is again modelled by a Birth-Death process. A dormant infection can re-emerge on its own or through an infection of an actively infected neighbour.