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9:00am to 10:00am - Zoom - Inverse Problems Alexei Novikov - (Penn State University) Imaging with highly incomplete and corrupted data |
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10:00am to 11:00am - zoom https://uci.zoom.us/j/93076750122?pwd=Y3pLdndoQTBuNUhxQUxFMkQ2QnRFQT09 - Mathematical Physics Jake Fillman - (Texas State) Spectral and dynamical properties of aperiodic quantum walks Quantum walks are quantum mechanical analogues of classical random walks. We will discuss the case of one-dimensional walks in which the quantum coins are modulated by an aperiodic sequence, with an emphasis on almost-periodic models. [Talk based on joint works with Christopher Cedzich, David Damanik, Darren Ong, and Zhenghe Zhang] |
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3:00pm to 4:00pm - Zoom: https://uci.zoom.us/j/95840342810 - Number Theory Sarthak Chimni - (University of Illinois, Chicago) Subring growth in integral rings
An integral ring R is a ring additively isomorphic to Z^n . The subring zeta function is an important tool in studying subring growth in these rings. One can compute these zeta functions using p-adic integration due to a result of Grunewald, Segal and Smith. I shall talk about computing these zeta functions for Z[t]/(t^n) for small n and describe some results on subring growth and ideal growth for integral rings. This includes joint work with Ramin Takloo-Bighash and Gautam Chinta. |
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4:00pm - Zoom https://zoom.us/j/8473088589 - Graduate Seminar Nathan Kaplan - (UC Irvine) Codes from Polynomials over Finite Fields
Suppose we are trying to communicate over a 'noisy channel'. I want to send you a single bit, a 1 or a 0, but there is some probability that the bit I send is not the bit you receive. We could communicate more reliably by agreeing to repeat the intended message, for example, instead of sending '0’ or '1’, I would send '000’ or '111’. But, there is a cost to this repetition. A major goal in the theory of error-correcting codes is to understand how to efficiently build redundancy into messages so that we can identify and correct errors. In this talk we will focus on error-correcting codes that come from families of polynomials over finite fields, starting from the classical example of Reed-Solomon codes. We will emphasize connections between coding theory, algebraic geometry, and number theory. This talk will assume no previous familiarity with coding theory or algebraic geometry. We will start with the basics and emphasize concrete examples. |