1 Lp Spaces and Interpolation 1.1 Lp and Weak Lp 1.1.1 The Distribution Function 1.1.2 Convergence in Measure 1.1.3 A First Glimpse at Interpolation Exercises 1.2 Convolution and Approximate Identities 1.2.1 Examples of Topological Groups 1.2.2 Convolution 1.2.3 Basic Convolution Inequalities 1.2.4 Approximate Identities Exercises 1.3 Interpolation 1.3.1 Real Method: The Marcinkiewicz Interpolation Theorem 1.3.2 Complex Method: The Riesz-Thorin Interpolation Theorem 1.3.3 Interpolation of Analytic Families of Operators Exercises 1.4 Lorentz Spaces 1.4.1 Decreasing Rearrangements 1.4.2 Lorentz Spaces 1.4.3 Duals of Lorentz Spaces 1.4.4 The Off-Diagonal Marcinkiewicz Interpolation Theorem Exercises
2 Maximal Functions, Fourier Transform, and Distributions 2.1 Maximal Functions 2.1.1 The Hardy-Littlewood Maximal Operator 2.1.2 Control of Other Maximal Operators 2.1.3 Applications to Differentiation Theory Exercises 2.2 The Schwartz Class and the Fourier Transform 2.2.1 The Class of Schwartz Functions 2.2.2 The Fourier Transform of a Schwartz Function 2.2.3 The Inverse Fourier Transform and Fourier Inversion 2.2.4 The Fourier Transform on L1 + L2 Exercises 2.3 The Class of Tempered Distributions 2.3.1 Spaces of Test Functions 2.3.2 Spaces of Functionals on Test Functions 2.3.3 The Space of Tempered Distributions Exercises 2.4 More About Distributions and the Fourier Transform 2.4.1 Distributions Supported at a Point 2.4.2 The Laplacian 2.4.3 Homogeneous Distributions Exercises 2.5 Convolution Operators on Lp Spaces and Multipliers 2.5.1 Operators That Commute with Translations 2.5.2 The Transpose and the Adjoint of a Linear Operator 2.5.3 The Spaces Mp,q(Rn) 2.5.4 Characterizations of M1,1 (Rn) and M2,2 (Rn) 2.5.5 The Space of Fourier Multipliers Mp(Rn) Exercises 2.6 Oscillatory Integrals 2.6.1 Phases with No Critical Points 2.6.2 Sublevel Set Estimates and the Van der Corput Lemma Exercises
3 Fourier Series 3.1 Fourier Coefficients 3.1.1 The n-Torus Tn 3.1.2 Fourier Coefficients 3.1.3 The Dirichlet and Fejer Kernels Exercises 3.2 Reproduction of Functions from Their Fourier Coefficients 3.2.1 Partial sums and Fourier inversion 3.2.2 Fourier series of square summable functions 3.2.3 The Poisson Summation Formula Exercises 3.3 Decay of Fourier Coefficients 3.3.1 Decay of Fourier Coefficients of Arbitrary Integrable Functions 3.3.2 Decay of Fourier Coefficients of Smooth Functions
4 Topics on Fourier Series 5 Singular Integrals of Convolution Type 6 Littlewood-Paley Theory and Multipliers 7 Weighted Inequalities AGamma and Beta Functions BBessel Functions CRademacher Functions DSpherical Coordinates ESome Trigonometric Identities and Inequalities FSummation by Parts GBasic Functional Analysis HThe Minimax Lemma ITaylor\'s and Mean Value Theorem in Several Variables JThe Whitney Decomposition of Open Sets in Rn Glossary References Index
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