BCAM SO Courses | Introduction to Harmonic Analysis
Date: Mon, Dec 2 - Fri, Dec 20 2024
Hour: 11:00 - 13:00
Location: BCAM - Basque Center for Applied Mathematics
Speakers: Mateus Costa de Sousa / BCAM Researcher Harmonic Analysis and inverse problems line
Register: Course Webpage and Registration Link
This 16-hour course aims to cover fundamental topics in harmonic analysis, with a selection of subjects particularly useful for the study of partial differential equations. It is designed for graduate students (and possibly advanced undergraduate students), and attendees are expected to be familiar with basic concepts from real, complex, and functional analysis.
The plan is to cover the list of topics described below (possibly in a different order), but the content may be modified depending on time and feedback from the students.
(1) Convolutions and approximate identities:
• Young’s inequality;
• Lp -convergence of approximate identities;
• Hardy–Littlewood–Wiener theorem;
• Lebesgue differentiation theorem;
• Pointwise convergence of approximate identities.
(2) Real and Complex interpolation:
• Riesz–Thorin interpolation;
• Stein’s interpolation;
• Lorentz spaces;
• Marcinkiewicz interpolation.
(3) The Fourier transform:
• L1 + L2 theory;
• The Schwartz class and tempered distributions;
• Oscillatory integrals;
• Paley–Wiener–Schwartz theorem.
(4) Fractional Integration:
• Definition of the Riesz potentials and its Fourier properties;
• Hardy–Littlewood–Sobolev theorem;
• The fractional maximal function;
• Sobolev spaces and their embeddings.
(5) Singular integrals:
• The Hilbert and Riesz transforms;
• The Calder ́on–Zygmund decomposition;
• Strong and weak Lp boundedness of singular integrals;
• Introduction to Fourier multipliers.
Organizers:
BCAM - Severo Ochoa
Confirmed speakers:
Mateus Costa de Sousa