2024 | Advanced topics in Algebra D

2024　Advanced topics in Algebra D

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Academic unit or major: Graduate major in Mathematics

Instructor(s): Yoshikawa Shou

Class Format: Lecture

Media-enhanced courses

Day/Period(Room No.): -

Group: -

Course number: MTH.A404

Credits: 1

Academic year: 2024

Offered quarter: 4Q

Syllabus updated: 2024/3/14

Lecture notes updated: -

Language used: English

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Syllabus

Course description and aims

This course follows Advanced topics in Algebra C, building on the topics covered there, we study basic properties and applications of quasi-Frobenius-regularity.

Student learning outcomes

Students are expected to understand the basic notion of Frobenius regularity and quasi-Frobenius-regularity. Looking through concrete examples and applications, students get acquainted with the fundamental importance of singularities in positive characteristic in current research.

Keywords

Commutative ring, Singularities, Frobenius morphisms, Witt ring.

Competencies that will be developed

✔ Specialist skills

Intercultural skills

Communication skills

Critical thinking skills

Practical and/or problem-solving skills

Class flow

Standard lecture course

Course schedule/Required learning

	Course schedule	Required learning
Class 1	Witt ring 1	Details will be provided during each class session
Class 2	Witt ring 2	Details will be provided during each class session
Class 3	Quasi-Frobenius splitting	Details will be provided during each class session
Class 4	Quasi-Frobenius splitting for Calabi-Yau varieties	Details will be provided during each class session
Class 5	Fedder type criterion for quasi-Froenius splitting 1	Details will be provided during each class session
Class 6	Fedder type criterion for quasi-Froenius splitting 2	Details will be provided during each class session
Class 7	Quasi-Frobenius regularity	Details will be provided during each class session

Out-of-Class Study Time (Preparation and Review)

To enhance effective learning, students are encouraged to explore references provided in lectures and other materials.

Textbook(s)

None required

Reference books, course materials, etc.

Matsumura, Hideyuki, Commutative ring theory, Cambridge Studies in Advanced Mathematics, 8, 1986.
Karl Schwede, Kevin Tucker, A survey of test ideals, arXiv:1104.2000, 2000.

Assessment criteria and methods

Course scores are evaluated by homework assignments. Details will be announced during the course.

Related courses

MTH.A403 ： Advanced topics in Algebra C

Prerequisites (i.e., required knowledge, skills, courses, etc.)

Basic undergraduate algebra in particular commutative ring theory.

Other

None in particular

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