Any attempt to describe phenomena, except the simplest ones, in terms of these multi-dimensional wave functions, means the … • The thermal interpretation gives a fair account of the interpretational differences between quantum mechanics and quantum field theory. The nonlocality of the thermal interpretation is a direct consequence of quantum field theory, hence as consistent with fundamental Lorentz covariance as quantum field theory itself. The interesting thing about the thermal interpretation is that Arnold questions that orthodox QM accurately reflects the actual practise of QM and takes this … By considering the properties of so-called anonymous collections, the notion of indistinguishability known from quantum mechanics is taken over to classical (statistical) mechanics. An interpretation of quantum mechanics is an attempt to explain how the mathematical theory of quantum mechanics "corresponds" to reality.Although quantum mechanics has held up to rigorous and extremely precise tests in an extraordinarily broad range of experiments (not one prediction from quantum mechanics is found to be contradicted by experiments), there exist a number of contending … • The thermal interpretation gives a natural, realistic meaning to the standard formalism of quantum mechanics and quantum field theory in a single world, without introducing additional hidden variables. THE INTERPRETATION OF QUANTUM MECHANICS theorists also goes under the more learned title of' state vector in the Hilbert space'. * The thermal interpretation gives a fair account of the interpretational differences between quantum mechanics and quantum field theory. Ah, so you change the fundamental law of quantum mechanics and say that it applies never. Thus provably in space-time dimensions 2 (quantum wires) and 3 (quantum surfaces), and empirically in space-time dimension 4. The thermal interpretation | This paper presents the thermal interpretation of quantum physics. Download Citation | Foundations of quantum physics II. * The thermal interpretation gives a natural, realistic meaning to the standard formalism of quantum mechanics and quantum field theory in a single world, without introducing additional hidden variables. A rather nice proof that classical mechanics emerges in the thermal interpretation from the dynamics of q-expectations using the weak law of large numbers is given.