Stochastic Processes and Probabilistic Methods in Quantum Field Theory With Python

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Free Download Stochastic Processes and Probabilistic Methods in Quantum Field Theory With Python (Mathematical Foundations of Quantum Field Theory) by Jamie Flux
English | October 22, 2024 | ISBN: N/A | ASIN: B0DKP1K9CY | 394 pages | PDF | 1.53 Mb
Discover the intersection of probability theory and quantum field theory with this comprehensive guide on stochastic processes and probabilistic methods. This book takes you on a journey through the mathematical foundations and advanced concepts necessary for understanding the role of stochastic processes in quantum field theory, all while providing practical Python code examples to enhance your learning experience.

Key Features:
  • Comprehensive coverage of both foundational and advanced topics in stochastic processes and quantum field theory.
  • Step-by-step Python code examples for each chapter to solidify understanding.
  • In-depth exploration of stochastic methods applied to various quantum phenomena.
  • Integrates mathematical rigor with real-world applications in quantum physics.
Book Description:
This detailed resource presents a harmonious blend of stochastic processes and quantum field theory, suitable for both newcomers and seasoned professionals. Begin with a thorough review of probability theory and measure, then delve into the core areas of stochastic calculus, quantum mechanics, and field theory. Explore a range of themes from Brownian motion to quantum groups, all linked through stochastic methods. With practical Python code, engage actively with the material, deepening your understanding through hands-on execution of complex theories.
What You Will Learn:
  • Understand the foundations of probability theory relevant to stochastic processes.
  • Explore Lebesgue measure and integration techniques and their probabilistic applications.
  • Delve into probability distributions and transformations of random variables.
  • Grasp different modes of convergence within probability theory.
  • Define and classify various stochastic processes.
  • Analyze Brownian motion and its significance in stochastic processes.
  • Get an introduction to martingales and their properties.
  • Explore the development of stochastic integration with respect to martingales.
  • Derive and apply Itô's lemma and stochastic differential equations.
  • Learn solution techniques for stochastic differential equations.
  • Connect partial differential equations with stochastic processes via the Feynman-Kac formula.
  • Extend stochastic differential equations to infinite-dimensional spaces.
  • Study advanced topics in stochastic calculus.
  • Review quantum mechanics principles, with a focus on Hilbert spaces and quantum states.
  • Navigate Feynman's path integral formulation and its implications in physics.
  • Comprehend quantum field theory including field quantization.
  • Apply path integrals to quantum fields for functional integral techniques.
  • Examine Noether's theorem and conservation laws through symmetry in quantum fields.
  • Analyze the probabilistic interpretations inherent in quantum mechanics.
  • Study Feynman path integrals and computational methods.
  • Investigate coherent states in quantum mechanics.
  • Introduce Grassmann variables and fermionic path integrals.
  • Explore supersymmetry in stochastic processes.
  • Understand stochastic quantization and its field quantization applications.
  • Examine the Parisi-Wu approach to field quantization.
  • Use Langevin equations in the evolution of quantum fields.
  • Apply stochastic quantization methods to scalar and gauge fields.


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