"Bohm’s theory falls on its face in trying to repeat thart [Quantum Mechanics] in every detail."

True, Bohm's theory does not relativize well, for instance. But it has its interesting points. One thing that really intrigued me was that in 1992 Englert Scully Süssmann Walther stated that Bohmian mechanics leads to some "surreal" trajectories for the double slit experiment https://www.researchgate.net/publication/276382824_Surrealistic_Bohm_Trajectories, but when actually tested in 2016, the surreal was shown to be real. https://www.newscientist.com/article/2078251-quantum-weirdness-may-hide-an-orderly-reality-after-all/ The paper is found at https://advances.sciencemag.org/content/2/2/e1501466 Abstract:

Weak measurement allows one to empirically determine a set of average trajectories for an ensemble of quantum particles. However, when two particles are entangled, the trajectories of the first particle can depend nonlocally on the position of the second particle. Moreover, the theory describing these trajectories, called Bohmian mechanics, predicts trajectories that were at first deemed “surreal” when the second particle is used to probe the position of the first particle. We entangle two photons and determine a set of Bohmian trajectories for one of them using weak measurements and postselection. We show that the trajectories seem surreal only if one ignores their manifest nonlocality.