Mathematical analysis III (MAT903)
The course is aimed at PhD students in complex and harmonic analysis and will consist of three blocks, each corresponding to 5 credit points. The first block is part of a general mathematical education and is compulsory for all the analysis PhD students, while the second part of the course is on more specific subjects and to be chosen from the second and third blocks.
Course description for study year 2024-2025. Please note that changes may occur.
Course code
MAT903
Version
1
Credits (ECTS)
10
Semester tution start
Spring, Autumn
Number of semesters
1
Exam semester
Spring, Autumn
Language of instruction
Norwegian
Content
Description: The course is aimed at PhD students in complex and harmonic analysis and will consist of three blocks, each corresponding to 5 credit points. The first block is part of a general mathematical education and is compulsory for all the analysis PhD students, while the second part of the course is on more specific subjects and to be chosen from the second and third blocks.
Literature: W. Rudin, Real and Complex Analysis; T. Ransford, Potential Theory in the Complex Plane; A. Olevskii and A. Ulanovskii, Functions with Disconnected Spectrum; M. Klimek, Pluripotential Theory.
Learning outcome
After finishing the course, the student will have knowledge of measure theory and integration, as well as basics of potential theory. In addition, the student will learn either main ideas of Fourier analysis, including sampling and interpolation of band-limited functions (option 1), or of basics on holomorphic functions of several variables, complex manifolds and pluripotential theory.
Module 1 (5ECTS- FIXED): Measure theory, integration and potential theory
Contents: general measure theory and Lebesgue integration; basics of potential theory in the complex plane and Rn.
Module 2 (5ECTS - option1): Fourier analysis
Contents: Fourier transform; functional spaces; sampling and interpolation of band-limited functions.
Module 3 (5ECTS - option2): Several complex variables and pluripotential theory
Contents: basics on holomorphic functions of several variables; complex manifolds; introduction to pluripotential theory.
Required prerequisite knowledge
Exam
Form of assessment | Weight | Duration | Marks | Aid |
---|---|---|---|---|
Oral exam | 1/1 | Passed / Not Passed |
Course teacher(s)
Course teacher:
Tyson RitterCourse teacher:
Alexander UlanovskiiCourse coordinator:
Alexander RashkovskiiMethod of work
Overlapping courses
Course | Reduction (SP) |
---|---|
Fourier and Wavelet Analysis (MAT900_1) | 5 |
Functional Analysis with Applications (MAT901_1) | 5 |