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Pré-Publication, Document De Travail Année : 2023

Calculus of Variation and Path-Integrals with Non-Linear Generalized Functions

Résumé

The calculus of variation and the construction of path integrals is revisited within the framework of non-linear generalized functions. This allows us to make a rigorous analysis of the variation of an action that takes into account the boundary effects, even when the approach with distributions has pathological defects. A specific analysis is provided for optimal control actions, and we show how such kinds of actions can be used to model physical systems. Several examples are studied: the harmonic oscillator, the scalar field, and the gravitational field. For the first two cases, we demonstrate how the boundary cost function can be used to assimilate the optimal control adjoint state to the state of the system, hence recovering standard actions of the literature. For the gravitational field, we argue that a similar mechanism is not possible. Finally, we construct the path integral for the optimal control action within the framework of generalized functions. The effect of the discretization grid on the continuum limit is also discussed.

Dates et versions

hal-04159912 , version 1 (12-07-2023)

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Quentin Ansel. Calculus of Variation and Path-Integrals with Non-Linear Generalized Functions. 2023. ⟨hal-04159912⟩
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