[en] The gauge problem of the conventional interpretation of quantum mechanics is examined carefully within the framework of treating electromagnetic fields as classical and external quantities. It is found that the conventional interpretation not only is gauge dependent but also does not allow the degree of freedom of choosing a gauge in the Schroedinger equation. The fundamental approach to the gauge problem adopted is Lamb's criterion which states that the ''interaction'' Hamiltonian in a gauge can represent the true physical interaction if and only if the theoretical probabilities constructed ''in the usual way'' in the same gauge are the physically true probabilities. Imposition of necessary conditions of an observable on the theoretically constructed probabilities leads to constraints on the gauge in the Schroedinger equation. In particular, consideration of causality excludes the complete α-Lorentz gauge (defined by nabla A + 1/α²c delta phi/delta t = 0) with α not equal to 1 and consideration of the conservation laws excludes the Lorentz gauge