Casimir effect with machine learning

Casimir effect with machine learning

Vacuum fluctuations of quantum fields between physical objects depend on the shapes, positions, and internal composition of the latter. For objects of arbitrary shapes, even made from idealized materials, the calculation of the associated zero-point (Casimir) energy is an analytically intractable ch...

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Veröffentlicht in:arXiv.org 2020-10
Hauptverfasser: Chernodub, M N, Erbin, Harold, Grishmanovskii, I V, Goy, V A, Molochkov, A V
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Boundaries
Computer Science - Learning
Computer simulation
Dirichlet problem
Field theory
Machine learning
Mathematical analysis
Monte Carlo simulation
Neural networks
Physics - High Energy Physics - Lattice
Physics - High Energy Physics - Theory
Physics - Mesoscale and Nanoscale Physics
Quantum theory
Variation
Yang-Mills theory
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Beschreibung
Zusammenfassung:Vacuum fluctuations of quantum fields between physical objects depend on the shapes, positions, and internal composition of the latter. For objects of arbitrary shapes, even made from idealized materials, the calculation of the associated zero-point (Casimir) energy is an analytically intractable challenge. We propose a new numerical approach to this problem based on machine-learning techniques and illustrate the effectiveness of the method in a (2+1) dimensional scalar field theory. The Casimir energy is first calculated numerically using a Monte-Carlo algorithm for a set of the Dirichlet boundaries of various shapes. Then, a neural network is trained to compute this energy given the Dirichlet domain, treating the latter as black-and-white pixelated images. We show that after the learning phase, the neural network is able to quickly predict the Casimir energy for new boundaries of general shapes with reasonable accuracy.
ISSN:2331-8422
DOI:10.48550/arxiv.1911.07571