Quantum mechanics is a well-established theory that accurately describes the behavior of particles at the quantum level. According to the principles of quantum mechanics, quantum tunneling is a phenomenon where particles can pass through energy barriers that, according to classical physics, they should not be able to penetrate.
However, it is important to note that quantum mechanics is a probabilistic theory, and it describes the behavior of particles in terms of wave functions and probabilities. The concept of quantum tunneling arises from the wave nature of particles and their associated probabilities.
Based on our current understanding of quantum mechanics, there is no interpretation that completely rules out the possibility of quantum tunneling. Quantum mechanics has been extensively tested and confirmed through numerous experiments, and quantum tunneling has been observed in various systems.
If there were a theory or interpretation that claimed quantum tunneling is completely impossible at a certain level or parameter, it would contradict the well-established empirical evidence and predictions of quantum mechanics. To date, there is no widely accepted alternative theory or interpretation of quantum mechanics that rejects the occurrence of quantum tunneling.