Listed in: Mathematics and Statistics, as MATH-460
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Amanda L. Folsom (Section 01)
This course is an introduction to Analytic Number Theory, a foundational subject in mathematics which dates back to the 1800s and is still a major research area today. The subject generally uses tools and techniques which are analytic in nature to solve problems primarily related to integers. Asymptotic and summation results and methods are of great significance in Analytic Number Theory. Two primary course objectives are to state and prove two major theorems: Dirichlet's Theorem on Primes in Arithmetic Progressions, and the Prime Number Theorem. In particular, we will study Selberg's "elementary" proof of the Prime Number Theorem, as well as an analytic proof. Additional topics may include: arithmetic functions, especially their averages, their asymptotics, and related summation formulae; Dirichlet convolutions; characters and Gauss sums; and an introduction to Dirichlet series, such as the Riemann zeta-function and L-functions. Further topics may vary.
This course is expected to include both synchronous and asynchronous class sessions and activities, and opportunities for peer engagement.
Requisite: At least two among MATH 345, MATH 350, and MATH 355, with MATH 345 preferred; or by consent of the instructor. Prior experience with number theory, such as MATH 250, may be helpful but is not required. Fall semester. Professor Folsom.