See organizers Rufus, Alan or Robin for details.
Speaker: Chris Nowlin (NSA)
Title: Mathematics at NSA
Abstract: We will discuss career opportunities for mathematicians at the National Security Agency. The speaker will share reflections on his 5-year career, including the application process, the types of problems NSA mathematicians work on, and some of the good and the bad associated with working for NSA. Questions from the audience are encouraged.
Speaker: Jerry Shurman (Reed College)
Title: Lifts and Congruences of Siegel Modular Forms by the Pullback-Genus Method
Abstract: We compute Hecke eigenform bases of spaces of degree 3 Siegel modular forms and Euler factors of the eigenforms, through weight 22. Our method uses the Fourier coefficients of Siegel Eisenstein series, which are fully known and computationally tractable, and Garrett’s decomposition of the pullback of the Eisenstein series through the Witt map. Our results support Miyawaki’s conjectural lift and Katsurada’s theory of congruence neighbors. Some familiarity with classical modular forms will be helpful.
Speaker: Ranjan Bhaduri
Title: Some Musings of a Mathematician about the Hedge Fund Space
Please join us for a informal seminar by UH Manoa alum and Chief Research Officer at Sigma Analysis & Management Ltd, Dr. Ranjan Bhaduri. He will give us some insights into the mathematics of the hedge fund world.
Bring a lunch or snack for this exciting discussion!
Abstract: The hedge fund space has grown into a multi-trillion dollar business, and there are several quantitative and systematic hedge funds in existence. Many mathematical techniques are invoked in the hedge fund industry. This talk gives some insights about some of the mathematics utilized in the hedge fund world and in portfolio construction of multi-manager portfolios. In addition, it gives some nuggets of wisdom to students (both undergraduate and graduate) looking to have success in the business and finance world.
Speaker: Sita Benedict, UH-Manoa
Title: The modulus of curve families in R^n and its properties (Part 2 of 2)
Abstract: This talk will be an introduction to what is the modulus of a curve family, introduced in 1950 by Ahlfors and Beurling and generalized to its current form by Fuglede in 1957. We will define the modulus for curve families in R^n, but the definition makes sense in a general metric measure space. Although the definition is a bit cumbersome, the modulus has some very nice and useful properties, which lead naturally to the definition of quasiconformal mappings and also Newtonian spaces. These are, respectively, generalizations of conformal mappings and Sobelev spaces. We will prove these nice properties of the modulus and also calculate the modulus of certain families of curves.
See Thomas for details
See organizers Rufus, Alan or Robin for details.
Title: Wave driven inundation for reef fringed atolls
Speaker: Prof. Janet M. Becker, Department of Geology and Geophysics
Abstract: As sea level rises, the threat of wave driven inundation for low lying atolls is anticipated to increase. Wave driven inundation results from three dynamically distinct components: sea and swell energy, breaking wave setup, and low frequency (infragravity) energy. Here, results from field experiments in Ipan, Guam and Majuro and Roi-Namur, RMI are presented that demonstrate the importance of low frequency energy on fringing reefs. The observations are described in terms of linear and nonlinear dynamics. Projections of wave driven inundation that include all components for Roi-Namur under future sea level scenarios are presented.