Note:
1. The lectures originally on Nov. 7 & Nov. 9 will be cancelled.
2. The lecture originally on Dec. 5 will be adjused to 9:00 am, Dec. 5, Classroom C654, Shuangqing Complex Building. The lecture on Dec. 7 will be cancelled.
3. The lectures on Dec. 19 and Dec. 21 will be delivered only online from 2:30 pm to 4:05 pm. Zoom Meeting ID: 271 534 5558 Passcode: YMSC
4. The lecture on Dec. 21 has been adjusted to Dec. 22, 2:30 pm-4:05 pm. Online Zoom Meeting ID: 271 534 5558 Passcode: YMSC
5. The lecture on Dec. 22 has been canceled.
6. The lecture will resume on Dec. 26.
7. The lectures will be delivered on Tues.& Thur., 17:05-18:40, from Jan. 2 to Jan. 11, 2024. Shuangqing Complex Building C548.; Zoom ID: 271 534 5558 Passcode: YMSC
Description:
About a decade ago Scholze discovered that the Siegel modular varieties (i.e. moduli spaces of polarized abelian varieties with level structure) become perfectoid when passing to infinite level, and that there is a Hodge-Tate period map from the resulting perfectoid space to a flag variety. He used the geometry of the period map to prove important p-adic properties of torsion cohomology classes of locally symmetric spaces, and deduced the existence of Galois representations attached to such classes; this was a major breakthrough in the Langlands program. Later, Caraiani and Scholze used their refinement of the Hodge-Tate period map to prove important vanishing properties of torsion cohomology classes of certain Shimura varieties. The proof was simplified by Koshikawa by relating the problem to the cohomology of local Shimura varieties. Even more recently, people have got a clearer understanding of the relationship between the Hodge-Tate period map and the geometrization of local Langlands via the Fargues-Fontaine curve, in particular the groundbreaking work of Fargues-Scholze. From this point of view, more general vanishing results for torsion cohomology classes are being proved.
In this course we will start with the proof of Scholze’s theorem that the Siegel modular varieties become perfectoid at infinite level. We will then discuss the important geometric properties of the Hodge-Tate period map as in the works mentioned above. When we move to more recent developments and more advanced topics, we will still try to give as many proofs as possible.
Prerequisite:
Understanding of fundamental concepts in algebraic geometry and algebraic number theory is needed. Basic understanding of modular curves and abelian varieties will be assumed. Prior experience with p-adic Hodge theory will be extremely helpful. Some acquaintance with adic spaces and perfectoid spaces is strongly preferred but not strictly necessary, as we will review them.
Target Audience: Graduate students
Teaching Language: English
Notes:
HT final.pdf
Videos:http://archive.ymsc.tsinghua.edu.cn/pacm_course?html=The_Hodge_Tate_period_map_on_the_perfectoid_Shimura_variety.html
Bio:
Yihang Zhu is a Professor at Yau Mathematical Sciences Center. He obtained his Ph.D. from Harvard University in 2017. His research centers around the Langlands program, especially Shimura varieties and trace formula methods.
清华大学双清综合楼A座地址:北京市海淀区逸清南路西延6号院1号,双清公寓马路对面、清华附小(双清校区)西侧。
Registration: https://www.wjx.top/vm/OtHvcjq.aspx#
注:听课的老师和学生请携带工作证和学生证进入。
