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4:00pm to 5:00pm - RH 340N - Geometry and Topology Chiara Damiolini - (UT Austin) Conformal blocks from vertex operator algebras Vertex operator algebras (VOAs) and their modules define sheaves of conformal blocks over the moduli space of stable curves, generalizing sheaves of conformal blocks attached to Lie algebras. In this talk I will discuss how these sheaves are constructed and which properties they satisfy. I will in particular describe conditions that guarantee that these sheaves are actually vector bundles of finite rank and related open questions. This is based on a joint work with A. Gibney, N. Tarasca and D. Krashen. |
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4:00pm to 5:20pm - RH 440R - Logic Set Theory Garrett Irvin - (California Institute of Technology) The Arithmetic of Linear Orders There are two natural arithmetic operations on the class of linear orders: the sum + and lexicographic product x. These operations generalize the sum and product of ordinals. The arithmetic laws obeyed by the sum were uncovered in the pre-forcing days of set theory and are surprisingly nice. For example, while the left cancellation law A + X \cong B + X => A \cong B is not true in general, its failure can be completely characterized: a linear order X fails to cancel in some such isomorphism if and only if there is a non-empty order R such that R + X \cong X. Right cancellation is symmetrically characterized. Tarski and Aronszajn characterized the commuting pairs of linear orders, i.e. the pairs X and Y such that X + Y \cong Y + X. Lindenbaum showed that X + X \cong Y + Y implies X \cong Y for linear orders X and Y. More generally, the finite cancellation law nX \cong nY => X \cong Y holds. Lindenbaum showed that the sum even satisfies the Euclidean algorithm! On the other hand, the arithmetic of the lexicographic product is much less well understood. The lone totally general classical result is due to Morel, who characterized when the right cancellation law A x X \cong B x X => A \cong B holds. Morel showed that an order X fails to cancel in some such isomorphism if and only if there is a non-singleton order R such that R x X \cong X, in analogy with the additive case. In this talk we focus on the question of whether Morel’s cancellation theorem is true on the left. We’ll show that, while the literal left-sided version of Morel’s theorem is false, an appropriately reformulated version is true. Our results suggest that a complete characterization of left cancellation in lexicographic products is possible. We’ll also discuss how our work might help in proving multiplicative versions of Tarski’s, Aronszajn’s, and Lindenbaum’s additive laws. This is joint work with Eric Paul. |
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2:00pm - 510R Rowland Hall - Combinatorics and Probability Anna Ma - (UCI) Doubly Noisy Linear Systems and the Kaczmarz Algorithm Large-scale linear systems, Ax=b, frequently arise in data science and scientific computing at massive scales, thus demanding effective iterative methods to solve them. Often, these systems are noisy due to operational errors or faulty data-collection processes. In the past decade, the randomized Kaczmarz algorithm (RK) was studied extensively as an efficient iterative solver for such systems. However, the convergence study of RK in the noisy regime is limited and considers measurement noise in the right-hand side vector, b. Unfortunately, that is not always the case, and the coefficient matrix A can also be noisy. In this talk, we motivate and discuss doubly noise linear systems and the performance of the Kaczmarz algorithm applied to such systems. |
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3:00pm to 3:50pm - RH306 - Number Theory Hui Gao - (SUSTech, Shenzhen) Hodge-Tate prismatic crystals and Sen theory We discuss Hodge-Tate crystals on the absolute prismatic site of O_K, where K is a p-adic field. These are vector bundles defined over the Hodge--Tate structure sheaf. We first classify them by O_K-modules equipped with small endomorphisms. We then classify rational Hodge-Tate crystals by nearly Hodge--Tate C_p-representations. This is joint work with Yu Min and Yupeng Wang. |
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4:00pm - RH 306 - Colloquium Amir Mohammadi - (UC San Diego ) Dynamics on homogeneous spaces: a quantitative viewpoint Rigidity phenomena in homogeneous spaces have been extensively studied over the past few decades with several striking results and applications. We will give an overview of activities pertaining to the quantitative aspect of the analysis in this context with an emphasis on recent developments. |
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3:00pm to 4:00pm - RH 440R - Nonlinear PDEs Elena Kosygina - (Baruch College and the CUNY Graduate Center) Loss of quasiconvexity in the periodic homogenization of viscous Hamilton-Jacobi equations In this talk we shall discuss our recent work which shows that in the periodic homogenization of viscous HJ equations in any spatial dimension the effective Hamiltonian does not necessarily inherit the quasiconvexity property (in the momentum variables) of the original Hamiltonian. Moreover, the loss of quasi convexity is, in a way, generic: when the spatial dimension is 1, every convex function can be modified on an arbitrarily small interval so that the modified function, G(p), is quasiconvex, and for some Lipschitz continuous periodic V(x), the effective Hamiltonian corresponding to H(p,x)=G(p)+V(x) is not quasiconvex. This observation is in sharp contrast with the inviscid case where homogenization preserves quasiconvexity. The talk is based on joint work with Atilla Yilmaz, Temple University. |