Field beables for quantum field theory

The deBroglie-Bohm pilot-wave theory is an interpretation of quantum theory in which the observer plays no fundamental role. In a pilot-wave theory, quantum systems are not only described by the state vector, but also by some additional variables. These additional variables, also called beables, can be particle positions, field configurations, strings, etc. In this paper we focus our attention on pilot-wave theories in which the additional variables are field configurations. The first such pilot-wave theory was proposed by Bohm for the free electromagnetic field. Since Bohm similar pilot-wave theories have been proposed for other quantum fields. The purpose of this paper is to present an overview and further development of these proposals. We discuss various bosonic quantum field theories like the Schrödinger field, the free electromagnetic field, scalar quantum electrodynamics and the Abelian Higgs model. In particular we compare the pilot-wave theories proposed by Bohm and by Valentini for the electromagnetic field, finding that Valentini’s approach is more or less equivalent to Bohm’s approach. We further discuss the proposals for fermionic fields by Holland and Valentini. In the case of Holland’s model we indicate that further work is required in order to show that the model is capable of reproducing the quantum predictions. We also suggest a slightly different model, for which it might be easier to show that it reproduces the quantum predictions. In the case of Valentini’s model we point out a problem which seems hard to overcome.