Math
737 — Fall 2001
Algebraic Number Theory
| Instructor: |
Shankar Sen |
| Time: |
MWF 12:20–1:10 |
| Room: |
Malott 206 |
Prerequisites: Math 434 or equivalent.
Topics: This course is a basic introduction to algebraic number
theory. The core of it deals with the ideal theory of Dedekind domains
as applied to the rings of integers of number fields (finite extensions
of Q). A major purpose of the theory is to overcome the lack of unique
factorisation into primes in these rings.
The course will also cover the fundamental finiteness theorems: the finiteness
of the ideal class group (via Minkowski's geometric theory of numbers),
and the structure (finite generation, determination of the rank etc.)
of the unit group. Additional topics which will be discussed if time permits:
law of quadratic reciprocity, elementary Diophantine equations, completions
(p-adic numbers), zeta-functions, distribution of primes in arithmetic
progressions.
Text: None. But for those who like to see it in print: Chapter
V of Zariski & Samuel, Commutative Algebra, vol.1, gives a nice,
short development of the theory of Dedekind domains, with a little number
theory thrown in (quadratic reciprocity). Samuel's Introduction to
Algebraic Number Theory is short and elegant. Also Lang's book on
number theory covers most ofóthe material of the course (and a great deal
besides).
Last modified:
April 7, 2003
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