Rigid Geometry is a modern framework of geometry, established by Tate and Raynaud in an attempt to obtain analytic geometry over non-archimedean fields such as p-adic fields, and is nowadays becoming more and more important in several areas of mathematics, not only in algebraic and arithmetic geometries. The aim of this lecture is to cover overall basics of rigid geometry.
(1) Obtain overall knowledge on basics in rigid geometry
(2) Understand the relationship between rigid geometry and formal geometry
(3) Attain deep understanding of possible applications of rigid geometry
Rigid geometry, Formal geometry, Non-archimedean uniformization
✔ Specialist skills | Intercultural skills | Communication skills | Critical thinking skills | Practical and/or problem-solving skills |
Standard lecture course
Course schedule | Required learning | |
---|---|---|
Class 1 | Rigid analytic spaces (1) | Details will be provided during each class session |
Class 2 | Rigid analytic spaces (2) | Details will be provided during each class session |
Class 3 | Relation with formal geometry (1) | Details will be provided during each class session |
Class 4 | Relation with formal geometry (2) | Details will be provided during each class session |
Class 5 | GAGA (1) | Details will be provided during each class session |
Class 6 | GAGA (2) | Details will be provided during each class session |
Class 7 | Applications (1) | Details will be provided during each class session |
Class 8 | Applications (2) | Details will be provided during each class session |
None required
S. Bosch "Lectures on Formal and Rigid Geometry", Lecture Notes in Mathematics, Springer Verlag (978-3-319-04416-3)
Course scores are evaluated by homework assignments. Details will be announced during the course.
basic undergraduate algebra and complex analysis