referframe said:In Feynman’s Path Integral formulation of QM, one starts by considering all possible paths between two fixed space-time events.
Question: Must the wave-length associated with each allowable path divide evenly into the spatial length of the path?
The Path Integral Formulation is a mathematical approach used to solve problems in quantum mechanics. It views the evolution of a system as a sum over all possible paths, rather than a single, deterministic path.
The Path Integral Formulation differs from other approaches, such as the Schrödinger equation, in that it considers all possible paths of a system rather than just the most probable path. It also allows for the incorporation of quantum fluctuations and the treatment of non-perturbative effects.
"Allowable paths" refer to all possible paths that a system can take between a given initial and final state. These paths can vary in both time and space, and the Path Integral Formulation assigns a probability amplitude to each path.
The Path Integral Formulation has been successfully used in various areas of physics, including particle physics, condensed matter physics, and cosmology. It has also been applied to other fields such as economics and biology to model complex systems.
The Path Integral Formulation allows for a more intuitive and comprehensive understanding of quantum systems, as it takes into account all possible paths. It also provides a framework for studying non-perturbative phenomena and has proven to be a powerful tool in solving complex problems in physics.