Thesis Data

Tables of elliptic curves can be found at the following links:

Curves over -23 discriminant cubic field up to norm conductor 911 arranged by isogeny class

Curves over -23 discriminant cubic field with norm conductor greater than 911

Curves over -31 discriminant cubic field

Curves over -44 discriminant cubic field

Curves over -59 discriminant cubic field

Curves over -76 discriminant cubic field

Curves over -83 discriminant cubic field

Curves over -87 discriminant cubic field

Curves over -104 discriminant cubic field

Curves over -107 discriminant cubic field

Graphs representing curves connected by p-isogenies in size 12 isogeny classes over -23 discriminant cubic field:
            Prime isogeny graph for ncond 385 isogeny class over -23 disc. cubic field.        Prime isogeny graph of ncond 665 isogeny class over -23 disc. cubic field.

Ariah Klages-Mundt

Note: I am now a graduate student at Cornell University's Center for Applied Mathematics. To see my work since undergrad, visit my LinkedIn profile and read my recent article on stablecoin cryptocurrencies.

I was an undergraduate student in mathematics at Amherst College, during which I was a visiting student studying mathematics at Lady Margaret Hall, Oxford.

I used to work on number theory and arithmetic geometry while at Amherst. I wrote my undergrad honors thesis with Paul Gunnells at the University of Massachusetts-Amherst. For this work, I used the open-source software Sage for computer-algebra computations and highly recommend it.

During high school, I was very active in science fair competitions -- e.g., the Intel International Science & Engineering Fair, the Intel Science Talent Search, and the International Sustainable World Project Olympiad.

I also study classical guitar with Phillip de Fremery.

Contact Information

E-mail: first initial followed by last name w/o hyphen then append the first abundant number at amherst.edu

Research

A Database of Elliptic Curves over ℚ(√5) -- First Report (17 pages), with Jonathan Bober, Alyson Deines, Benjamin LeVeque, R. Andrew Ohana, Ashwath Rabindranath, Paul Sharaba, and William Stein, to appear in Proc. of ANTS-X (2012).

You can find the full table of curves here.

 

Previously, I worked with Krešimir Josić on modelling neuronal networks with stochastic differential equations as part of an NSF-funded research experience for undergraduates at Rice University and the Gulf Coast Consortia.