Quantization Methods in the Theory of Differential Equations
This volume presents a systematic and mathematically rigorous exposition of methods for studying linear partial differential equations. It focuses on quantization of the corresponding objects (states, observables and canonical transformations) in the phase space. The quantization of all three types of classical objects is carried out in a unified w
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Quantization Methods in the Theory of Differential Equations
This volume presents a systematic and mathematically rigorous exposition of methods for studying linear partial differential equations. It focuses on quantization of the corresponding objects (states, observables and canonical transformations) in the phase space. The quantization of all three types of classical objects is carried out in a unified w
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Quantization Methods in the Theory of Differential Equations

Quantization Methods in the Theory of Differential Equations

Quantization Methods in the Theory of Differential Equations
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Quantization Methods in the Theory of Differential Equations

Quantization Methods in the Theory of Differential Equations

Overview

This volume presents a systematic and mathematically rigorous exposition of methods for studying linear partial differential equations. It focuses on quantization of the corresponding objects (states, observables and canonical transformations) in the phase space. The quantization of all three types of classical objects is carried out in a unified w

Product Details

ISBN-13: 9781040214282
Publisher: CRC Press
Publication date: 05/16/2002
Series: Differential and Integral Equations and Their Applications
Sold by: Barnes & Noble
Format: eBook
Pages: 368
File size: 2 MB

About the Author

Vladimir E. Nazaikinskii, B.-W. Schulze, Boris Yu. Sternin

Table of Contents

Semiclassical Quantization. Quantization and Microlocalization. Quantization by the Wave Packet Transform. Maslov's Canonical Operator and Hormander's Oscillatory Integrals. Topological Aspects of Quantization Conditions. The Schrodinger Equation. The Maxwell Equations. Equations with Trapping Hamiltonians. Quantization by the Method of Ordered Operators (Noncommutative Analysis). Noncommutative Analysis: Main Ideas, Definitions, and Theorems. Exactly Soluble Commutation Relations. Operator Algebras on Singular Manifolds. The High-Frequency Asymptotics in the Problem of Wave Propagation in Plasma. Appendices.
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Science & Technology
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Science & Technology
Mathematics
Geometry
Mathematical Equations
Calculus
Geometry - General & Miscellaneous
Mathematical Equations - Differential

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